Buletin Pusat Pengajian Kejuruteraan Bahan dan Sumber...
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PEMBENTANGAN PEMBANGUNAN PTJ USM 2014
23 Mac 2015 - Pusat PengajianKejuruteraan Bahan dan Sumber Mineral(PPKBSM) telah meraih markah yangamat memberangsangkan dalam pem-bentangan pembangunan PTJ 2014.PPKBSM telah berjaya mendapatkedudukan pertama berdasarkan MyRA2untuk keseluruhan pusat tanggungjawab(PTJ) USM dan tempat ketigaberdasarkan perkiraan MyRA1.Peningkatan markah indeks petunjukprestasi (KPI) dari 67.8 pada tahun 2013kepada 98 untuk tahun 2014 telah mele-takkan PPKBSM dalam senarai PTJ Ungguldi samping Pusat Pengajian SainsKajihayat. Antara faktor penyumbangkepada kejayaan ini adalah kecemerlan-gan warga PPKBSM di dalam bidangpenyelidikan dan pembangunan. Bagitahun 2014 PPKBSM telah menghasilkanlebih 200 penerbitan berimpak tinggi disamping berjaya memperolehi lebih RM3juta geran penyelidikan dalam dan luarnegara. Syabas diucapkan kepada wargaPPKBSM dan semoga kecemerlangan inidapat diteruskan di masa hadapan.
ROMBONGAN AKADEMIK PPKBSM KEMALANGAN DI
ACHEH12 Mac 2015 - Seorang penuntut
Universiti Sains Malaysia (USM) mautmanakala tujuh yang lain cedera apabilabas yang membawa 24 anggota rombon-gan akademik dari Pusat PengajianKejuruteraan Sumber Mineral (PPKBSM)ke Acheh, Indonesia terlibat dalamkemalangan. Penuntut yang maut dalam
kemalangan pada 7 malam waktu Achehitu ialah Allahyarham Sdr. MuhamadIzzamir Nabihan A. Majid, 23, pelajartahun akhir Program KejuruteraanSumber Mineral. Muhamad IzzamirNabihan meninggal dunia ketika meneri-ma rawatan di Pusat KesihatanMasyarakat Geumpang, Acheh.Rombongan itu membawa 24 orang yangterdiri daripada 18 penuntut dan enamkakitangan termasuk pensyarah PKBSM.Bas yang mereka naiki terbabas kekawasan curam ketika dalam perjalananpulang dari kawasan lawatan lombongarang batu di Geumpang PD Acheh. Duadaripada tujuh orang yang cedera ringanitu dimasukkan ke rumah sakit dan pusatkesihatan masyarakat berhampiran lokasikejadian.
Jenazah Allahyarham MuhamadIzzamir Nabihan telah selamat dise-madikan di Tanah Perkuburan IslamMasjid Jamiul Badawi, Kepala Batas,Pulau Pinang selepas solat Jumaat. Majlispengkebumian turut dihadiri oleh sejum-lah kakitangan dan pelajar USM. Alfatihahdisedekahkan kepada AllahyarhamMuhamad Izzamir Nabihan dan semogaroh beliau ditempatkan bersama-samaorang-orang beriman dan beramal soleh.Amin.
ENJINIERBuletin Pusat Pengajian Kejuruteraan Bahan dan Sumber Mineral
Bulletin for the School of Materials and Mineral Resources Engineering Universiti Sains Malaysia
JIL. 17 BIL. 01 No. ISSN: 1511-5275 http://www.usm.my JUN 2015
1Buletin Enjinier, Jun 2015
Pembentangan Pembangunan PTJ USM 2014
Gambar kenangan rombongan akademik PPKBSM ke Acheh. AllahyarhamMuhamad Izzamir Nabihan (berdiri 2 dari kanan)
SHORT COURSE ON“ONE DIMENSIONAL MATERIALSTOWARDS A NEW DIMENSION OF
NANOTECHNOLOGY WORLD.”
22 - 24 April 2015 - A short course enti-tled “One Dimensional Materials TowardsA New Dimension of NanotechnologyWorld” was successfully organized bySchool of Materials and Mineral ResourcesEngineering under the umbrella ofNanoMaterials Initiative Group(NanoMIG). This short course has beenconducted as an effort to elucidate a briefoverview and scientific perspective on thesynthesis and characterization of onedimensional nanomaterials. The impor-tant properties and applications of onedimensional materials have also includedin the appropriate context of this shortcourse, to create an awareness amongthe participants about the unique featuresof one dimensional materials. In thisshort course, hands on training sectionhas included the basic concepts of thesynthesis, characterization and applica-tion of one dimensional materials.According to the Chairman of the NanoShort Course, Assoc. Prof, Ir. Dr. SrimalaSreekantan, this short course offered par-ticipants an opportunity to explore theworld of science through hands-on expe-riences.
AKREDITASI PROGRAM AKADEMIKPUSAT PENGAJIAN KEJURUTERAAN
BAHAN DAN SUMBER MINERAL
4 - 6 Mac 2015 – Program ijazah yangditawarkan oleh Pusat PengajianKejuruteraan Bahan dan Sumber Mineral(PPKSBM) iaitu Ijazah Sarjana MudaKejuruteraan Bahan, Ijazah Sarjana MudaKejuruteraan Sumber Mineral dan Ijazah
Sarjana Muda Kejuruteraan Polimer telahmelalui proses akreditasi oleh pihak MajlisAkreditasi Kejuruteraan (EAC), LembagaJurutera Malaysia. Objektif akreditasiadalah untuk memastikan program ijazahsarjana muda yang ditawarkan olehPPKBSM mempunyai keperluan akademikminimum bagi membolehkan graduanuntuk mendaftar sebagai juruterasiswazah dengan Lembaga JuruteraMalaysia (BEM). Untuk proses akreditasikali ini, program Kejuruteraan Bahan danKejuruteraan Sumber Mineral memohonuntuk pelanjutan manakala programKejuruteraan Polimer memohon untukkitaran baru. Panel yang hadir untukmenilai ketiga-tiga program terdiri daritiga orang untuk program KejuruteraanPolimer dan masing-masing seoranguntuk program Kejuruteraan SumberMineral dan Kejuruteraan Bahan. Aktivitiakreditasi termasuk penyemakan doku-men-dokumen berkaitan, sesi temudugabersama warga PPKBSM termasuk pelajarserta lawatan ke makmal dan kemudahandi kampus kejuruteraan seperti perpus-takaan dan sebagainya. Proses akreditasitelah berjalan lancar dan secara umum-nya panel berpuas hati dengan programyang ditawarkan oleh PPKBSM.Kerjasama yang diberikan oleh semuawarga PPKBSM telah memastikankejayaan proses akreditasi pada kali ini.
Buletin Enjinier, Jun 2015 2
Assoc. Prof. Ir. Dr. Syed Fuad
Saiyid Hashim
Prof. Dr. Zainal Arifin Ahmad
(Advisor)
Dr. Shah Rizal Kasim(Chief Editor)
Dr. Mohamad Hazizan MohamadHashim
Assoc. Prof. Dr. Azura A. Rashid
Assistant Editor
Editorial Board
Ms. Hasnah Awang
Ms. Habsah Haliman
Dr. Arjulizan Rusli
Dr. Pung Swee Yong
Short Course “One Dimensional Materials towards A New Dimension ofNanotechnology World”
BELANGSUNGKAWA: ALLAHYARHAM MUHAMAD
IZZAMIR NABIHAN BINA. MAJID
Muhamad Izzamir Nabihan Bin A.Majid dilahirkan pada 8 Oktober 1992 diHospital Besar Kuala Lumpur. Anak keduadaripada lima orang adik beradik iniadalah seorang anak yang sentiasamenanam impian untuk menjadi anaksulung lelaki yang bekerjaya bagi mem-bantu keluarganya. Hal ini disebabkanbapanya, En. A. Majid Bin Abd Gafforyang kini berumur 55 tahun akan bersaradaripada berkhidmat sebagai anggotapolis tidak lama lagi. Hasrat ini telahdikhabarkan berulang kali kepada ibunya,Suria Binti Omar dan adik-beradiknyayang lain. Beliau menjadi harapan keluar-ga kerana beliau merupakan anak lelakisulung dan bakal menamatkan pengajiandi dalam jurusan Ijazah Sarjana MudaKejuruteraan Sumber Mineral di UniversitiSains Malaysia.
Sejak kecil lagi, beliau berhajat untukmelanjutkan pelajarannya di UniversitiSains Malaysia. Hal ini kerana USM adalahtempat yang akan dilihatnya terlebihdahulu setelah melalui Jambatan PulauPinang setiap kali keluarganya pulang kekampung ayahnya di Gelugor. Perkara inidiberitahu oleh ibu bapanya sendiri.Menjadi seorang mahasiswa USM meru-pakan kebanggaannya dan juga keluarga.Cita-citanya untuk menjadi seorangJurutera Pemprosesan Mineral di RahmanHydraulic Tin Sdn. Bhd. iaitu tempat beli-au menjalani latihan industri selama 10minggu (semasa di tahun tiga) juga ser-ing diceritakan kepada sahabat-sahabat-nya di universiti. Minatnya begitu men-dalam di dalam aktiviti perlombonganbermula sejak tahun pertama berada diuniversiti. Buku ensiklopedia kecil menge-nai batuan dan mineral yang disimpandalam beg beliau sentiasa dibawanya kemana sahaja bagi dijadikan rujukan.
Beliau dikenali sebagai seorang yangmudah didekati dan disenangi oleh orangramai terutamanya pensyarah-pensyarahdan rakan-rakan di universiti. Sikapnyayang ramah dan terbuka juga membu-atkan semua selesa untuk bergaul den-gannya. Di kampus, beliau sangat aktif didalam aktiviti kokurikulum, badan persat-uan dan juga khidmat masyarakat. Sukanyang sangat digemarinya ialah ragbi.Beliau menyertai banyak perlawanan diperingkat universiti dan juga negeri.Sukan ini menjadi sukan kegemarannyasetelah beliau memasuki universiti.Dorongan jurulatih dan rakan-rakanmembuatkan beliau bersemangat untukmenceburi sukan ini. Beliau telah dilantiksebagai pengerusi bagi kelab ragbi di uni-versiti. Kejohanan Ragbi 10 Sebelah USMkali ke 10 merupakan jasa terbesar beliaudalam usaha mempromosikan sukanragbi di universiti dan negara.
Kebolehannya dalam pengurusan sesuatu acara atau program membuatkan kejo-hanan tersebut berjaya dilaksana denganjayanya.
Di kampus, beliau merupakan ketuaexco desasiswa yang didiaminya iaituDesasiswa Jaya. Sifat kepimpinan yangdimiliki membuatkan beliau ditawarkanjawatan tersebut. Pada awal tahun 2015,beliau pernah melibatkan diri dalam misibantuan banjir di Temerloh, Pahang. Halini disebabkan sikapnya suka membantuorang di dalam kesusahan. Perkara inidapat dilihat di dalam aktiviti harian dikampus. Beliau sedia memberi khidmatbantuan kepada rakan tanpa mengirawaktu dan sebarang alasan. Sikapnya initurut dikhabarkan oleh ibunya ketikamana beliau berada di rumah. Oleh sebabitu, beliau mendapat perhatian ramaidalam kalangan pelajar di universiti.
Sesungguhnya Allah s.w.t. lebihmenyayangi beliau setelah terlibat didalam kemalangan ketika mengikutilawatan akademik ke Acheh, Indonesiapada 11 Mac 2015 yang lalu. Kehilanganbeliau amat dirasai oleh keluarga, handaitaulan dan universiti. Semoga roh beliaudicucuri rahmat dan mendapat pengam-punan daripada Allah s.w.t.
KEJOHANAN BADMINTON TERTUTUP PPKBSM 2015
9 Mei 2015 - Sempena Pesaraan En.Abdul Razak bin Embi, Kelab Sukan &Rekreasi (KSR) PPKBSM telah men-gadakan satu Kejohanan BadmintonBeregu Tertutup PPKBSM 2015 bertempatdi Kompleks Sukan USM Kejuruteraan.Kejohanan yang julung-julung kalinyadapat diadakan ini mendapat sambutanyang menggalakkan di mana seramai duabelas beregu telah berentap dan telahdibahagikan kepada empat kumpulan.Keputusan penuh perlawanan adalahseperti berikut: Johan - pasangan bereguEn. Razak/En. Mior Zulbahri, Naik Johan -pasangan beregu En. Zulkarnain/En.Faizal, Tempat Ketiga - pasangan bereguEn. Suharudin/En. Junaidi dan TempatKeempat – pasangan beregu Prof. MadyaDr. Azhar/En. Hasnor. Selain tujuan riadahdan rekreasi, kejohanan ini turut dapatmerapatkan hubungan kekeluargaansesama warga PPKBSM. Syabas dan tah-niah kepada para pemenang.
Buletin Enjinier, Jun 2015 3
Kejohanan Badminton Tertutup PPKBSM 2015
Perjalanan terakhir Allahyarham Muhamad Izzamir Nabihan
PERTANDINGAN SUDOKU 2015:TROFI PROF. DR. ZAINAL ARIFIN
AHMAD 25 Mac 2015 - Pertandingan Sudoku
2015: Trofi Prof. Dr. Zainal Arifin Ahmadtelah dianjurkan oleh Kelab Pelajar IjazahTinggi (PGSC) sesi 2014/2015 dan telahdiadakan di Dewan Seminar, PusatPengajian Kejuruteraan Bahan danSumber Mineral, Universiti Sains Malaysia.Pertandingan sudoku ini adalah antaraprogram tahunan anjuran PGSC yangmana kali ini ia merupakan tahun ke-8sejak pertama kali pertandingan ini dian-jurkan pada tahun 2007. Pertandingansudoku ini adalah salah satu pentas untukmengetengahkan kreativiti dan daya fikirkritis di kalangan mahasiswa dan jugastaf. Pertandingan sudoku ini juga dapatmelatih peserta untuk berfikir denganpantas dan logik untuk menyelesaikanmasalah. Pada tahun ini, seramai 99orang peserta telah menyertai pertandin-gan ini. Para peserta terdiri dari 17 orangstaf, 40 orang pasca-siswazah dan 42orang pelajar siswazah. Pertandingansudoku ini juga turut menarik minat pela-jar antarabangsa daripada Libya, Iraq,Indonesia, Thailand dan Kemboja. Setiappeserta dikehendaki menyelesaikan 2 setsudoku dalam masa 40 minit. Pesertadibahagikan kepada tiga kategori; kate-gori staf, kategori pelajar pasca-siswazahdan kategori pelajar siswazah. Pemenangadalah peserta yang dapat menyelesaikansudoku dalam masa yang paling singkattanpa sebarang kesalahan. Pemenangkeseluruhan menerima sebuah trofi, sijilpenyertaan serta hamper dan telah dime-nangi oleh saudara Wong Liang Cherndari Pusat Pengajian KejuruteraanMekanik.
SEMINAR AKADEMIK “VIVA: DEFENDING YOUR
THESIS”16 Jun 2015 - Seminar Akademik
bertajuk “Viva: Defending Your Thesis”telah dianjurkan oleh Kelab Pelajar IjazahTinggi (PGSC) dan telah diadakan diDewan Seminar, Pusat PengajianKejuruteraan Bahan dan Sumber Mineral,Universiti Sains Malaysia. Ia adalah pro-gram seminar akademik ketiga yang dian-jurkan pada PGSC sesi 2014/2015. Prof.Madya Dr. Khairunisak Bt. Abdul Razaktelah dijemput sebagai penceramah padaseminar tersebut. Sebanyak 67 orangpelajar pasca-siswazah telah menyertaiseminar berkenaan. Seminar ini bertujuanuntuk memberi panduan kepada parapelajar untuk mempersiapkan diri bagimenempuhi “Viva Voce”. Terdapat banyakperkara yang diberi perhatian dalam sem-inar tersebut antaranya adalah; kesilapanyang selalu dilakukan oleh pelajar ketikaviva, kaedah menjawab soalan pemeriksadengan yakin dan cara menyediakanpembentangan yang mudah difahamioleh pemeriksa.
KEJOHANAN FUTSAL TERBUKA PGSC 2015
6 Mei 2015 - Kejohanan FutsalTerbuka PGSC 2015 merupakan kejo-hanan tahunan anjuran Kelab PelajarIjazah Tinggi (PGSC), Pusat PengajianKejuruteraan Bahan dan Sumber Mineral,Universiti Sains Malaysia. Kejohanan initelah berlangsung di padang komplekssukan USM Kampus Kejuruteraan. Tujuanutama kejohanan ini diadakan adalahuntuk mengeratkan hubungan silaturahimantara ahli-ahli kelab dengan pelajar danstaf yang lain. 8 pasukan telah berdaftaruntuk kejohanan ini di mana ia telah dis-ertai oleh pelajar siswazah, pelajar pasca-siswazah dan staf USM. Kejohanan inimenggunakan format liga yang manasetiap pasukan perlu bermain dalam 7perlawanan. Pasukan yang memperolehimata yang tertinggi akan diisytiharkansebagai pemenang. Pendaftaran bermuladari pukul 8.30 pagi dan sepak mula per-
lawanan pertama bermula pada pukul9.00 pagi. Kejohanan diakhiri denganucapan ringkas oleh presiden PGSC,Mohd. Fariz Ab. Rahman dan diikutiupacara penyampaian hadiah dan sijiluntuk pemenang dan semua peserta.Pasukan Banana FC telah dinobatkansebagai juara keseluruhan untuk kejo-hanan futsal kali ini. Syabas dan jutaanterima kasih diucapkan pada semua pihakyang menjayakan Kejohanan FutsalTerbuka PGSC 2015.
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Kejohanan Futsal Terbuka PGSC 2015
Pertandingan Sudoku 2015: Trofi Prof. Dr. Zainal Arifin Ahmad
Mutiara kata:
Nabi Muhammad s.a.w pernah
bersabda: "Tidak akan masuk
syurga orang yang jirannya
tidak aman dari gangguan-
gangguannya" (Riwayat Muslim)
TRIZ LEVEL 1 PRACTITIONERWORKSHOP
25 - 26 April 2015 - Innovation is animportant skill much needed in the neweconomy. With competition becomingincreasingly intense, innovation is nolonger a “nice-to-have” skill but a “must-have”. There is a way to learn “INNOVA-TION” in a systematic approach. Theapproach is called TRIZ or Theory ofInventive Problem Solving. TRIZ is aRussian methodology discovered about66 years ago but has remained a well-kept secret. This open-secret has finallyreached you through the MyTRIZ Level1+ Workshop (© MYTRIZ).
This workshop was organize by Schoolof Materials & Mineral ResourcesEngineering (SMMRE) in collaborationwith the Malaysia TRIZ InnovationAssociation (MYTRIZ) and Multimedia &Development Corporation (MDeC).
The aim of this workshop is to bridgethe gap in understanding complex prob-lem solving from the academia and indus-tries perspectives. Complex problemsolving is a multifaceted skill that isrequired among 21st Century Graduates.This attribute is also an essential outcomefor accreditation of engineering pro-grammes. Therefore, learning andexploring on a systematic inventive prob-lem solving is important in meaningfullypreparing and developing our future engi-neers.
This workshop was attended by 49 stu-dents including undergraduate and postgraduate students; participation not onlycomes from SMMRE but also School ofElectrical and Electronic Engineering. ACertified Trainer for TRIZ Level 1, Dr.Zuratul Ain Abdul Hamid has conductedand delivered TRIZ Level 1 syllabusthroughout the two days workshop. Thecertification was endorsed and certifiedby MDeC and MYTRIZ and recognized
worldwide as the workshop followed the TRIZ International syllabus. The work-shop is hopeful to initiate the creativityand provide a systematic inventive prob-lem solving that can be used by the stu-dents in any problem or research works.
The success of this workshop will notbe realized without the help of organizingcommittee lead by Ms. Nor Ezza Sofiah,3rd Year Polymer Engineering student.Their enthusiasm and hard works haveresulted in the smooth and success of theworkshop. It is important SMMRE supportmore similar workshop to be organized toenhance and value add our students inproblem solving skill, communication skilland also build up their confident levelwhenever facing any problem in theirstudies.
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TRIZ Level 1 Practitioner Workshop
Science and Engineering
Research Centre(SERC),
USM Engineering Campus,
Penang, Malaysia |
27th−29th January 2016
Website: http://ignite.eng.usm.my
Contact: +6045996153/6101
Dr. Zuratul Ain Abdul Hamid
MAJLIS SANJUNGAN BUDI STAFPPKBSM
8 Mei 2015 – Majlis sanjungan budi untukstaf bersara wajib dan bertukar tempatbertugas telah diadakan di DewanSeminar, PPKBSM. Prof. Dr. Azizan binAziz dan En. Abdul Razak bin Embibersara wajib pada umur 60 tahunsementara Dr. Julie Juliewatty bt.Mohamad telah bertukar tempat bertugaske Universiti Malaysia Kelantan (UMK).Majlis dimulai dengan ucapan aluan olehDekan pusat pengajian, Prof. Dr. Hanafibin Ismail, diikuti ucapan dari staf yangdiraikan. Beberapa orang staf telahdijemput untuk berkongsi pengalamanbersama dengan mereka. Prof. Dr. AzizanBin Aziz dan En. Abdul Razak bin Embimerupakan antara staf perintis ketikaPPKBSM ditubuhkan di Bandaraya Ipohhampir 30 tahun lalu. Majlis turut dimeri-ahkan dengan tayangan multimedia bagimengimbau kenangan, suka dukasemasa mereka bertiga bertugas di PPKB-SM. Majlis diakhiri dengan penyampaiancenderahati dan jamuan makan tengaharidi Dewan Seri Ilham. Bak kata pepatah,harimau mati meninggalkan belang,manusia mati meninggalkan nama. Jasadan pengorbanan mereka selamaberkhidmat di PPKBSM amat dihargai danakan senantiasa dikenang.
CERAMAH KERJAYA OLEH GUOCERAHOLDINGS SDN. BHD
27 Mei 2015 – Pihak Guocera HoldingsSdn. Bhd. telah mengadakan ceramahkerjaya bersama pelajar tahun tiga danjuga tahun akhir Program KejuruteraanBahan. Program telah diadakan di DewanSeminar Pusat Pengajian KejuruteraanBahan dan Sumber Mineral (PPKBSM).Pihak Guocera diwakili oleh EncikMurugahia Tiruganasambathan selakuPengurus Sumber Manusia dan Encik SowSew Seng, Pengurus Kanan Penyelidikandan Pembangunan (R&D). GuoceraHoldings Sdn. Bhd. adalah antara pen-geluar utama jubin di Malaysia dan jugamerupakan salah satu entiti konglomeratKumpulan Hong Leong. Ceramah kerjayaini juga merupakan kesinambungan darilawatan pihak Guocera ke PPKBSM padatahun 2014. Program ini bertujuan mem-beri kefahaman yang lebih mendalamkepada bakal graduan terutama sekalidari Program Kejuruteraan Bahan untukmemasuki dunia pekerjaan khususnyabersama Guocera Holdings. Programseperti ini adalah selaras dengan agendapihak universiti untuk mewujudkanrangkaian kerjasama dengan pihak indus-tri.
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Majlis sanjungan budi staf PPKBSM
Ceramah kerjaya oleh Guocera Holdings Sdn. Bhd
8th International Conference On Geological and Geo-Resources Engineering
IC-GeoE 2015
CITITEL HOTEL, PENANG, MALAYSIA |
September, 29th - 30th, 2015
Buletin Enjinier, Jun 2015 7
List of SMMRE Postgraduate Students Viva from January - June 2015
No. Student Nama / Date Degree Title of Thesis Name of Supervisor
1 Afikah binti Rahim
26 January 2015
M.Sc The Effect of the Rockmass Properties and Groundwater Inflow Related to
Performance of Tunnel Boring Machine (TBM) at Pahang – Selangor Raw
Water Transfer Tunnel Project (PSRWT)
Dr. Hareyani ZabidiProf. Madya Dr. Kamar Shah Ariffin
2 Nurhaswani binti Alias
27 January 2015
M.Sc Synthesis and Electrochemical Behavior of LiFePO4/C With Air-Electrode
for Aqueous Lithium Ion BatteryProf. Madya Dr. Ahmad Azmin Mohamad
3 G Ambarasan a/l Govindasamy
28 January 2015
M.Sc Studies on Antimicrobial Agent Incorporated Polypropylene for
Antimicrobial ApplicationProf. Madya Ir. Dr. Srimala a/pSreekantanProf. Dr. Hazizan Md Akil
4 Ng Chai Yan
2 February 2015
Ph.D Synthesis and Characterization of Tungsten Oxide (WO3) Nanostructures
for Electrochromic ApplicationProf. Madya Dr. Khairunisak Abdul RazakProf. Madya Dr. Zainovia Lockman
5 Em Sereiratana
5 February 2015
M.Sc Characterization and Synthesis of Soda-Lime-Silicate Glass Produced
From Cambodian Silica SandDr. Sheikh Abdul Rezan S. Abdul HamidProf. Dr. Radzali Othman
6 Nik Akmar bin Rejab
12 February 2015
Ph.D Toughness Improvement of Zirconia Toughnened Alumina (ZTA) Through
The Addition of CeO2 and MgOProf. Dr. Zainal Arifin AhmadProf. Dr. Mani Maran a/l Ratnam
7 Siti Rohana binti Yahya
16 February 2015
Ph.D Studies on the Effect of Mechanical and Chemical Treatments on
Rheological, Mechanical and Biodegradation Properties of Sago Starch
Filled Natural Rubber Latex (NRL) Films
Prof. Madya Dr. Azura A. RashidProf. Madya Dr. Baharin Azahari
8 Maslinda binti Kamarudin
24 February 2015
M.Sc Effect of AI Addition to IMC Formation, Mechanical and Wetting Properties
of Low-Ag SAC Solder AlloyProf. Madya Dr. Nurulakmal Mohd SharifDr. Anasyida Abu SemanDr. Sivakumar a/l Ramakrishnan
9 Wan Fahmin Faiz bin Wan Ali
16 March 2015
Ph.D Optimizing The Formation of Yttrium Iron Garnet (YIG) Via Response
Surface Method (RSM) for Dielectric Resonator Antenna (DRA) ApplicationProf. Dr. Zainal Arifin AhmadDr. Norazharuddin Shah AbdullahProf. Dr. Mohd Fadzil Ain
10 Muhammad Razlan bin Zakaria
25 March 2015
M.Sc Enhancement of Mechanical, Thermal and Dielectric Properties of Epoxy
Nanocomposites Through Chemical Hybridization of Carbon Nanotubes
and Alumina
Prof. Dr. Hazizan Md Akil
11 Mohd Saidina bin Dandan Satia
6 April 2015
M.Sc Preparation and Characterization of Calcium Copper Titanate Filled Epoxy
CompositesProf. Ir. Dr. Mariatti Jaafar
12 Poh Chen Ling
7 April 2015
M.Sc Characterization of Dielectric Materials Based on Filler Material Filled
Epoxy Thin Film CompositesProf. Ir. Dr. Mariatti JaafarProf. Dr. Ahmad Fauzi Mohd Noor
13 Tham Cho Yin
16 April 2015
M.Sc Synthesis of Poly(Lactic Acid)(PLA) Microspheres for Drug Delivery
SystemDr. Zuratul Ain Abdul HamidProf. Dr. Hanafi IsmailProf. Madya Dr. Zulkifli Ahmad
14 Phan Chee Hong
29 April 2015
M.Sc Fabrication and Properties of Electromagnetic Interferences Shielding
Polymer Composites for Electronic Packaging ApplicationProf. Ir. Dr. Mariatti Jaafar
15 Norshahida binti Sarifuddin
6 May 2015
Ph.D Mechanical, Physical, Thermal and Biodegradability Studies of Low
Density Polyethylene/Thermoplastic Sago Starch/Kenaf Core Flour
Biocomposites
Prof. Dr. Hanafi Ismail
16 Nor Fatin Khairah binti
Bahanurddin
15 May 2015
M.Sc Optimization of PZT Dielectric and Piezoelectric Properties Via La2O3 and
SrCO3 Additions Without Calcinations Step
Dr. Julie Juliewatty MohamedProf. Dr. Zainal Arifin Ahmad
17 Farah Diana Mohd Daud
5 June 2015
Ph.D Synthesis and Characterization of Calcium Based Material for Carbon
Dioxide AdsorbentProf. Madya Ir. Dr. Srimala a/pSreekantanProf. Dr. Abdul Rahman Mohamed
18 Nor Azaniza Abdul Mutalib
8 June 2015
M.Sc Innovative Approach for Production of Two-Phase Epoxy Syntactic Foams
Consisting Epoxy Hollow SphereProf. Madya Dr. Zulkifli Mohamad Ariff
ANUGERAH PERKHIDMATAN CEMERLANG USM 2014
BIL NAMA JAWATAN KATEGORI
1 PROF. DR. ZAINAL ARIFIN AHMAD PENSYARAH UNIVERSITI VK6 AKADEMIK
2 PROF. DR. AZIZAN BIN AZIZ PENSYARAH UNIVERSITI VK7 AKADEMIK
3 PROF. MADYA DR. AHMAD AZMIN MOHAMAD PENSYARAH UNIVERSITI DS54 AKADEMIK
4 PROF. MADYA DR. CHOW WEN SHYANG PENSYARAH UNIVERSITI DS54 AKADEMIK
5 EN. MOHD. FARID ABD. RAHIM PENOLONG JURUTERA JA29 TEKNIKAL
6 EN. MOHAMAD SHAFIQ MUSTAPA SUKRI PENOLONG JURUTERA JA29 TEKNIKAL
7 EN. SHARUL AMI ZAINAL ABIDIN PENOLONG JURUTERA JA29 TEKNIKAL
8 PN. NURSHALYDAH SALLEH PEMBANTU TADBIR (P/O) N22 (KUP) PENTADBIRAN
Buletin Enjinier, Jun 2015 8
KEJURUTERAAN BAHAN
TAHUN 1
CHAI SHIR YING
KONG CHEE XIAN
SEOW PEK YING
WONG CHEE LEONG
WONG JIA YING
YEW LIH WEI
TAHUN 2
CHEAH WEI KIAN
KHOR YONG LING
LEE ANGIE
LIM ZE EN
ONG YEE CHIN
OOI CHIA YING
SOO SOCK KUAN
TAN JIA SHENG
TAN PENG PHIN
TEH JIN JIAN
THOR JIN ANN
WONG KAE YUAN
TAHUN 3
CHAN JI KIT
CH'NG MUN SUNN
CHONG SU FANG
FOONG SUET KAY
HOO XIAO FEN
LAI CHAI MEI
LAW HON KIN
LEE WEI KEAN
LEONG QIAO LIN
LEONG TENG TENG
LIM SHI HONG
LOH YAN PIN
LOO FOONG LING
LOW JIONG XIONG
LOW SU YEIAN
TAN ZHI QIN
TANG CHIN WUI
TENG JIN WEN
WONG PHUI JIN
WONG SI MIN
YONG XUAN HUI
TAHUN 4
`AQILAH BINTI GHAZALI
ATIQAH BT. AHMAD
CHIM JIA ERN
CHUA PEI CHING
CHUAH WEI HOONG
FATIN AINA MARDIA BINTI MOHD PUZI
GOH THENG TYNG
KET XIANG JIE
LEE CHEE KEAT
LEE JIN LING
LIANG SHU YI
LIEW XUE MING
LIM CHI YANG
LIM CHUI NING
LOOK HONG JUN
LOY LIANG SOON
MABEL DE CUNHA
MAZATUL NAJWA BINTI MUHAMMAD KHIR
MOHAMMAD FARID BIN MOHD SAAD
MOHD NAZIM BIN BIRKIMSIN
MUHAMMAD AWALUDIN BIN MOHAMMAD
SAMAN
NEOH SOO HUAN
NG ZI SHIN
NOOR HIJRAH BT MISHAD
NOR SAKINAH BINTI MANSOR
NUR BASYIRA BT ABU BAKAR
NURUL ATIQAH BT ABDUL MANAF
NURUL SHAZWANI BINTI MOHD ZAIN
ONG XIANG QI
QUAH WEI LUN
SITI AMINAH BINTI HELL MEE
SITI LAILATUL MUNIRAH BINTI AHMAD
TERMIZI
SYARIFAH MARIAM NORAINI BT SAYED
AHMAD
TAI LEE SIN
TAN YONG DAR
TUAN NUR IZZAH BINTI TUAN AB RASHID
YEAP CHEOK KUANG
ZULFA AIZA BINTI ZULKIFLI
KEJURUTERAAN SUMBER MINERAL
TAHUN 1
AISYAH SHAHIRAH BINTI JUHARI
NORFATEHA BINTI AB HAN
NURUL FARAH DYANA BINTI ZAIZAMSHIMI
SUCHITRA A/P PERUMAL
TAHUN 2
KIMBERLY TAY SHU YEN
TAHUN 3
KHONG LING HAN
YAO BENJAMIN
TAHUN 4
AMANINA MARISSA BINTI JAAFAR
AYU ROHAIZA BINTI SUDIRMAN
FATHIN DALILAH BINTI SUPRI
HAZIRAH HANIM BINTI ZAHARUDDIN
INTAN MUNIRAH BINTI ROSLI
MARIA ULFAH BINTI KHIDER
NABILAHMAHIR BINTI SUFIANMAHIR
NOR ADILA BINTI ANUAR
NOR FARHANA BINTI MUHAMAD NOR
NORAINI BINTI ZAINUDDIN
NUR IZZATI BINTI MUSTAPA
NUR KHUZAIMA BINTI AZMAN
NURHANIS BT ABD HAMID
NURHAYA LAMING BINTI RAMIN
NURHIDAYAH BINTI ABDUL MUTHALIB
NURUL NAZIEHA BINTI YAAKOP
RASYIFAH RUSHDA BINTI ABDUL MUTALIB
SHAIK ABDUL RAHMAN BIN SHAIK ABDUL
WAHAB
SITI HAWA BINTI ELIAS
SITI NORHIDAYU BT MOHAMED
SOONG YEE CHEN
SYAMIMI NADIRA BINTI MOHD NOR
WAN NUR SYAFIQAH BINTI HAIRUL
ANUAR
WAN NURUL AISYAH BT CHE WAN
DZULKANAIN
KEJURUTERAAN POLIMER
TAHUN 1
CHOW LI CHIN
CHUA JING TING
NG CHI LOON
ONG MUN YEE
SIEW TUCK SEONG
YAP CIA LING
YAP SOON YOU
TAHUN 2
GAN IVY
JONG CHENG KIAT
LAW YEONG SHYANG
LOH LEH HEE
NEO EN PEI
NURUL AMIRA IZZATIE BINTI ROSLLY
TAHUN 3
CHUA LIAN TATT
FAHZIMRAN AFNOR BIN AFENDI
JOYCE A/P MICHAEL RETNASINGAM
KUWN MOEI TING
LEE CHEE KEONG
LIM WEE KIAN
SIN YIN TIN
TAN WAI KEAT
TAHUN 4
AMIRUL AZFAR BIN KAMARUZZAMAN
AMRAN BIN SAHIRON
BEH KAH BOON
FARRAH AMIERA BINTI MOHD KHAIRUD-
DIN
KHAIRUL ZAMAN BIN ZAKARIA
LEONG HUI THENG
LIM KAR WAI
LIM WEY SONG
MAK SOK YEE
MOHAMAD SHAFIQ BIN MOHAMAD SUFI-
AN
MOHAMMAD ZAKWAN BIN MOHAMMAD
MOHD KHAIRUL RAZIKIN BIN NORJAN
MUHAMMAD HAZWAN BIN MUHAMMAD
HISHAM
NADIA BINTI WAN AZMAN
NAFEESA BINTI MOHAMAD SHUKRI
NIK NUR ASMA' NABILAH BINTI NIK
MUHAMMAD SHUKRI
NOOR FARAHIN BINTI MOHD IBRAHIM
NUR AIMAN BIN TENGAH
NUR FAZREEN BINTI ALIAS
NUR HAYATI BINTI ESZER
NUR SHUHADA BINTI MOHAMAD RAFFI
NUR SYAZWANA BINTI HAMIZI
NUR YASMIN BINTI MOHAMAD RAHMAN
SAHFIKAH BINTI SOFIAN KRISHNAN
TEO ZU XIAN
TEOH ZHIXUAN
SENARAI PENERIMA SIJIL DEKAN SEMESTER II, SIDANG AKADEMIK 2014/2015
SIJIL DEKAN
bersambung dari m/s 15..
6.0 Mine Tours
Students and staff at the mine conductguided tours for the general publicthroughout the year. Tours generally lastone hour, but can be tailored to accom-modate some special requests. More thanone-half mile of underground workingsrepresenting over 100 years of mine development are covered on the tour.
Lighted displays showing drilling, blasting,and mucking equipment are displayed on the mine tour and items of discussion include mining practice, mining econom-ics, and the role of the mining industry inmodern society. The mine is usually rela-tively dry and a constant 54 degreesFahrenheit, year-round. CSM provideshard hats for tour members, but guestsare asked to wear warm clothing and stur-dy walking shoes. Sorry, but the mine isnot wheelchair accessible.
7.0 Summary
Edgar Mine is the experimental mine ofColorado School of Mines. The experimen-tal mine can be a good example of how mining engineering education being deliv-ered in U.S.A. It can be a very good les-son to be learned of becoming an engi-neer that proof the real life experiencesare the best mentor the students can getduring their study period.
9Buletin Enjinier, Jun 2015
SENARAI STAF KENAIKAN PANGKAT
BIL NAMA JAWATAN TARIKH
KUATKUASA
1 PN. HABSAH BINTI HALIMAN PEGAWAI PENYELIDIK Q48 01.01.2015
2 EN. MOHD. NAZRI BIN IDRIS PEGAWAI PENYELIDIK Q48 01.01.2015
3 PN. NOR ASMAH BINTI MD. NOR PEMBANTU TADBIR (P/O) N22-KUP 01.01.2015
4 EN. MOHD. ALI BIN MAY PEMBANTU TADBIR (P/O) N22-KUP 15.01.2015
No. Date Name Organization Purpose
1. 19.01.2015 Umet LokmanAbdul MazlanIzwan Hadi Zainol RashidMohd. Firdaus bin Abu BakarAng K.HJanice Lee
MPA-PRPG Research Collaboration
2. 29.01.2015 Hasibah Che AliAhmad Sukri Jarkasi
SMK Bakti, Tasik Gelugor, SPU Research Collaboration
3. 16.02.2015 Adam Rylski Institute of Materials Sc. and Eng., LodzUniversity of Technology, Poland
Research Collaboration
4. 25.02.2015 Prof. Sutomu Sato Faculty of Eng., Hokkaido University Research Collaboration5. 31.03.2015 Leopold Somulo
Daniel Chan Khoon GarkN-Park, Gelugor Research Collaboration
6. 06.04.2015 Norihide Emomoto Midori Anzem Research Collaboration 7. 21.04.2015 Amran Mohd. Sani
Kamarudin Abd. KarimAtiqah Mohamad SarrinLutfee BakarMohammad Hafiz ZakariaS.C. Chow
RHT Research Collaboration
8. 22.05.2015 Wong Weng On Lion Tin Sdn. Bhd. Research Collaboration9. 27.05.2015 AUN/SEED-net Secretariat Research Collaboration10. 27.05.2015 Murugahia Tiruganasambathan
Sow Sew SengGuocera Holdings Sdn. Bhd. Career Talk
Visitors to the SMMRE (January to June 2015)
SENARAI STAF BERSARA WAJIB
BIL NAMA JAWATAN TARIKH
KUATKUASA
1 PROF. DR. AZIZAN BIN AZIZ PENSYARAH UNIVERSITI VK7 27.05.20152 EN. ABDUL RAZAK BIN EMBI PENOLONG JURUTERA JA29 24.05.2015
STAF BERTUKAR TEMPAT BERTUGAS
BIL NAMA JAWATAN TARIKH
KUATKUASA
1 DR. JULIE JULIEWATTY MOHAMED PENSYARAH UNIVERSITI DS51 15.04.2015
EFFECT OF EXCITATION SOURCESON THE PHOTODEGRADATION OF
RHB SOLUTION USING NI EMBEDDED ZnO NANORODS AS
PHOTOCATALYST
Myo Thuya Thein1, Swee-Yong Pung1,
Azizan Aziz1, Mitsuru Itoh2
1Science and Engineering ofNanomaterials Team,
School of Materials and MineralResources Engineering,
Universiti Sains Malaysia, Engineering Campus, 14300
NibongTebal, Pulau Pinang, Malaysia
2Materials and Structures LaboratoryTokyo Institute of Technology 4259
Nagatsuta, Midori, Yokohama 226-8503, Japan
AbstractNi embedded ZnO nanorods were synthe-sized by two step solution precipitationmethod followed by reduction in H2
atmosphere at 500oC for 2 hours. TheXRD analysis shows that the as-synthe-sized particles were ZnO that well crystal-lized in hexagonal wurtzite structure.There is no Ni (or NiO) diffraction peakscould be found in the XRD analysis.TheSEM image confirmed that the morpholo-gy of ZnO nanorods did not change withNi loading on its surface. The EDX analy-sis shows the present of Ni beside Zn andO elements. The photocatalytic activity inremoval of RhB dye by Ni embedded ZnOnanorods was greatly enhanced whenusing a smaller UV excitation source. Thephotodegradation efficiency using UVlight with wavelength of 254 nm almostcompletely removed RhB, i.e. 98% within75 min as compared to 58% when usingUV light with wavelength of 352 nm. It isworth mentioning that the rate constantof using 254 nm UV light is 0.048 min-1,which is four times larger than using 352nm UV light.
1.0 IntroductionSemiconductor photocatalysts have beenattracting research focus recently becauseof its great potential as remedy to solveenvironmental problems [1]. These semi-conductor photocatalysts could be used toremove organic pollutants by degradingthem into less harmful byproducts such aswater and carbon dioxide under sunlight[2]. In addition, their other applicationsas environmental remedy are to inactivatemicrobial [3]and remove heavy metals[4]. Amongst the semiconductors, wide bandgap TiO2 (3.2 eV) is the most studied pho-
tocatalyst as it has high photochemicalefficiency and stability [5-7].A suitablealternative to TiO2 is ZnO [8] as it pos-sesses a similar bandgap (3.3 eV), lowcost and non-toxic nature. Studies haveshown that ZnO demonstrated a betterphotocatalytic efficiency than TiO2 inremoval of 2-phenylphenol [9], Reactiveblue [10], Rhodamine 6G [11], Acid Red14 [12] and Acid Red 18 [13] in aqueoussolution.Many attempts have been made toimprove photocatalytic efficiency of ZnOphotocatalyst in degradation of organiccompounds. One of the approaches is tomodify the surface of ZnO by coupling ofanother metal oxide semiconductor toachieve a higher light adsorption capacityby shifting the absorbance to visible lightregion [14, 15]. Another way of improvingthe photodegradation efficiency is bymeans of restricting the electron-holerecombination rate of ZnO. This could beachieved by embedding metals such asAu [16] and Ag [17] onto the surface ZnOparticles.In this work, Ni embedded ZnO nanorodswere prepared by two-step solution pre-cipitation. Since ZnO is capable of absorb-ing irradiation in UV wavelength attrib-uted to its wide band gap, the effect of UVexcitation sources on the photodegrada-tion efficiency of Ni embedded ZnOnanorods in removal of RhB dye was stud-ied.
2.0 ExperimentalStacked ZnO nanorods were synthesizedby solution precipitation method asdescribed in our previous paper [18].Subsequently, the Ni embedded ZnOnanorods were synthesized by immersingthe ZnO nanorods into 0.03 M of Ni(NO3)2aqueous solution. The mixture was stirredat room temperature for 24 hours to allowthe deposition of nickel particles onto thesurface of ZnO nanorods. The white pre-cipitate was filtered and dried in the ovenfor 12 hours at 120oC. The product wascalcined at 500oC for 1 hour and reducedunder hydrogen atmosphere at 500oC for2 hours.The photocatalytic study on the Niembedded ZnO nanorods in removal ofRhodamine (RhB) dye was conductedusing different UV excitation sources (254nm and 352 nm). The photocatalyticactivity of Ni embedded ZnO nanorodswas achieved by irradiating mixture of 20mg ZnO Ni embedded ZnO nanorods and30 ml RhB (1x10-5 M) by UV light. Then,photodegradation of RhB solution wasdetermined by monitoring the decay of its553 characteristic absorption peak usingUV-VIS Spectrophotometer (Cary 5).
3.0 Results and discussion3.1 Structural and optical properties of Niembedded ZnO nanorodsXRD patterns of as-synthesized particlesare represented in Figure 1. The diffrac-
tion peaks could be indexed to wurtziteZnO crystal structure (JCPDS No. 01-079-2205) with lattice constant of a = 3.250nm and c = 5.207 nm, regardless ZnOparticles or Ni embedded ZnO particles.The diffraction peaks at 31.74o, 34.40º,36.26º, 47.52º, 56.54º, 62.84º, 66.26º,67.92º and 68.98º are corresponded to(100), (002), (101), (102), (110), (103),(200), (112) and (201) crystal planes ofhexagonal ZnO. Their strong and sharpfeatures suggest that the samples werewell crystalline. No impurity peaks wereobserved for both types of particles. Thisresult indicates that only a small amountof Ni particles was deposited onto the sur-face of ZnO nanorods, which was belowthe XRD detection limit.
Figure 2 (a) shows the field emissionscanning electron microscopy (FESEM)image of as-synthesized ZnO nanorods. Itcould be clearly seen that the nanorodshave hexagonal tips. As shown in Figure 2(b), the morphology of Ni embedded ZnOnanorods did not change with Ni loadingon its surface. However, as shown inFigure 2 (c), small particles could befound on the surface of ZnO nanorods.These particles were homogeneously dis-tributed on the surface of ZnO nanorods.The EDX elemental analysis was per-formed on the Ni embedded ZnOnanorods. As shown in Figure 3, theanalysis indicates that Ni embedded ZnOnanorods compose of Zn, O and Ni ele-ments.
Buletin Enjinier, Jun 2015 10
Article 1
Figure 1: XRD patterns of ZnO nanorods and
Ni embedded ZnO nanorods.
Figure 4(a) shows the TEM image of Niembedded ZnO nanorods. Very fine Niparticles with size below 9 nm weredeposited uniformly onto the surface ofZnO nanorods. The HRTEM image of Niembedded ZnO nanorod is shown inFigure 4 (b). The d spacing of 0.26 nmand 0.20 nm are corresponded to the(002) planes in the ZnO crystal lattice and(111) plane planes of face-centered cubic(fcc) Ni[19].
The optical band gap of ZnOnanorods and Ni embedded ZnOnanorods were investigated using UV-Visabsorption spectra [20]. The band gapenergy was calculated by extrapolation ofthe linear portion of the plot with respectto hv at α = 0 as shown in Figure 5. Theoptical band gap for both ZnO nanorodsand Ni embedded ZnO nanorods is 3.09eV, indicating that the small amount of Niloading was not sufficient to cause redshift of the absorption edge of Ni embed-ded ZnO nanorods [21, 22].
3.2 Photocatalytic StudyThe effectiveness of Ni embedded ZnOnanorods to degrade RhB solution usingUV light with different wavelengths wasstudied. Figure 6 shows the degradationof RhB solution over a period of timeusing Ni embedded ZnO nanorods as pho-tocatalyst. The RhB solution decolorizedgradually when exposed to UV radiationfor 0 min, 15 min, 30 min, 45 min, 60 minand 75 min. Figure 6 (a) shows theabsorption spectra of photocatalyticallydegraded RhB aqueous solutions in thepresence of Ni embedded ZnO nanorodsunder 352 nm of UV light. Theabsorbance peak of RhB significantlydecreased to 0.5354 a.u. after 45 min ofUV irritation, then continued down to0.4030 a.u. upon prolonging the irritationtime to 75 min. Figure 6 (b) shows theabsorption spectra of photocatalyticallydegraded RhB aqueous solutions in thepresence of Ni embedded ZnO nanorodsunder 254 nm of UV light. Theabsorbance peak of RhB significantlydecreased to 0.1512 a.u. after 45 min ofUV irritation, and then down to 0.0200
a.u. upon prolonging the irritation time to75 min. It could be clearly observed thatthe degradation of RhB solution wasfaster when using UV light with 254 nmthan UV light with 352 nm wavelength.As shown in Figure 7 (a), Ni embeddedZnO nanorods achieved a higher pho-todegradation efficiency when using UVlight with wavelength of 254 nm (98%) ascompared to 352 nm (58%) after 75 minirradiation. By plotting the data as ln(Co/C) of the time-dependent normalizeddye concentrations (which is the ratiobetween the initial concentration and theconcentration upon reaction) in Figure 7(b), linear plots are obtained. This indi-cates that the decomposition of RhB fol-lowed first order kinetic regardless theoptical excitation wavelength. The rateconstants, which determined from theslopes of Figure 7 (b), is increased almostfour times, i.e. from 0.012 to 0.048min─1 when the UV wavelength waschanged from 352 nm to 254 nm. Thisresult indicates that a smaller wavelengthof excitation source (254 nm) suppliedmore energetic photons which could pro-
Buletin Enjinier, Jun 2015 11
Figure 2: FESEM images of (a) ZnO nanorods
(b) Ni embedded ZnO nanorodsand (c) Ni
embedded ZnO nanorods at high
magnification.
Figure 3: EDX spectrum of Ni embedded ZnO
nanorods.
Figure 4: (a) TEM and (b) HRTEM image of Ni embedded ZnO nanorod.
Figure 5: Optical band gap energy of (a) ZnO nanorods and (b) Ni embedded ZnO nanorods.
Figure 6: Absorbance spectra of degraded RhB solution by Niembedded ZnO nanorods under
UV irradiationof (a) 352 nm and (b) 254 nm.
duce more electron hole pairs that wereneeded to form free radicals for moreeffective degradation of RhB dyes.
4.0 ConclusionsNi embedded ZnO nanorods were suc-cessfully synthesized via two step solutionprecipitation, followed by reduction in H2atmosphere at 500oC for 2 hours. The Niparticles (<9 nm) were deposited uni-formly onto the surface of ZnO nanorods,without changing the morphology andhexagonal wurtzite crystal structure ofZnO. The EDX analysis shows the presentof Ni beside Zn and O elements. The pho-tocatalytic activity in removal of RhB dyeby Ni embedded ZnO nanorods wasgreatly enhanced when using a smallerUV excitation source. It is noted that thephotodegradation efficiency after 75 minwas improved from 58% to 98%, and rate
constant was increased from 0.012 min−1
to 0.048 min−1 by changing UV excitationsource from 352 nm to 254 nm. The moreenergetic photons from the 254 nm UVsource generated more charge carriersthat were needed for the formation offree radicals. As a result, the RhB dyedegraded faster when 254 nm excitationsource was used in this study.
AcknowledgementThe authors would like to thankAUN/SEED-Net under CollaborativeResearch Program (CR) (304/PBA-HAN/6050277/A119) and USM ResearchUniversity Grant (RU) (1001/ PBAHAN/814200) for providing the research fund-ing to conduct this project.
5.0 References1. Bhatkhande, D.S., V.G. Pangarkar, andA.A. Beenackers, Photocatalytic degrada-tion for environmental applications–areview. Journal of Chemical Technologyand Biotechnology, 2002. 77(1): p. 102-116.2. Cai, X., et al., Photocatalytic degrada-tion properties of Ni(OH)2nanosheets/ZnO nanorods composites forazo dyes under visible-light irradiation.Ceramics International, 2014. 40(1): p.57-65.3. Jašková, V., L. Hochmannová, and J.Vytřasová, TiO2 and ZnO nanoparticles inphotocatalytic and hygienic coatings.International Journal of Photoenergy,2013. 2013: p. 1-6.4. Barakat, M., New trends in removingheavy metals from industrial wastewater.Arabian Journal of Chemistry, 2011. 4(4):p. 361-377.5. Zhuang, J., et al., Photocatalytic degra-dation of RhB over TiO2 bilayer films:effect of defects and their location.Langmuir, 2010. 26(12): p. 9686-9694.6. Palominos, R.A., et al., Photocatalyticoxidation of the antibiotic tetracycline onTiO2 and ZnO suspensions. CatalysisToday, 2009. 144(1): p. 100-105.7. Aarthi, T. and G. Madras, Photocatalyticdegradation of rhodamine dyes withnano-TiO2. Industrial & engineeringchemistry research, 2007. 46(1): p. 7-14.8. Zheng, Y., et al., Luminescence andphotocatalytic activity of ZnO nanocrys-tals: correlation between structure andproperty. Inorganic chemistry, 2007.46(16): p. 6675-6682.9. Khodja, A.A., et al., Photocatalyticdegradation of 2-phenylphenol on TiO2and ZnO in aqueous suspensions. Journalof Photochemistry and Photobiology A:Chemistry, 2001. 141(2–3): p. 231-239.10. Lizama, C., et al., Optimized pho-todegradation of Reactive Blue 19 on TiO2and ZnO suspensions. Catalysis Today,2002. 76(2–4): p. 235-246.11. Kansal, S.K., M. Singh, and D. Sud,Studies on photodegradation of two com-mercial dyes in aqueous phase using dif-ferent photocatalysts. Journal of
Hazardous Materials, 2007. 141(3): p.581-590.12. Daneshvar, N., D. Salari, and A.R.Khataee, Photocatalytic degradation ofazo dye acid red 14 in water on ZnO as analternative catalyst to TiO2. Journal ofPhotochemistry and Photobiology A:Chemistry, 2004. 162(2–3): p. 317-322.13. Sobana, N. and M. Swaminathan, Theeffect of operational parameters on thephotocatalytic degradation of acid red 18by ZnO. Separation and PurificationTechnology, 2007. 56(1): p. 101-107.14. Pawar, R.C., V. Khare, and C.S. Lee,Hybrid photocatalysts using graphitic car-bon nitride/cadmium sulfide/reducedgraphene oxide (gC3N4/CdS/RGO) forsuperior photodegradation of organic pol-lutants under UV and visible light. DaltonTransactions, 2014. 43(33): p. 12514-12527.15. Hong, R.Y., et al., Synthesis, surfacemodification and photocatalytic propertyof ZnO nanoparticles. Powder Technology,2009. 189(3): p. 426-432.16. Zhang, Y., X. Li, and X. Ren, Effects oflocalized surface plasmons on the photo-luminescence properties of Au-coatedZnO films. Optics express, 2009. 17(11):p. 8735-8740.17. Lu, H., et al., Photoluminescenceenhancement of ZnO microrods coatedwith Ag nanoparticles. Journal of Physics:Condensed Matter, 2008. 20(47): p.472202.18. Thein, M.T., et al., Stacked ZnOnanorods synthesized by solution precipi-tation method and their photocatalyticactivity study. Journal of Sol-Gel Scienceand Technology, 2015: p. 1-12.19. Senapati, S., S.K. Srivastava, and S.B.Singh, Synthesis, characterization andphotocatalytic activity of magneticallyseparable hexagonal Ni/ZnO nanostruc-ture. Nanoscale, 2012. 4(20): p. 6604-6612.20. Londono-Calderon, A., et al.,Vibrational Order, Structural Properties,and Optical Gap of ZnO NanostructuresSintered through Thermal Decomposition.Journal of Nanomaterials, 2014. 2014: p.1-7.21. Fresno, F., et al., Photocatalytic degra-dation of toluene over doped and coupled(Ti,M)O2 (M = Sn or Zr) nanocrystallineoxides: Influence of the heteroatom dis-tribution on deactivation. AppliedCatalysis B: Environmental, 2008.84(3–4): p. 598-606.22. Maldonado, C., et al., Photocatalyticdegradation of trichloroethylene over sil-ver nanoparticles supported on TiO2.Journal of the Chilean Chemical Society,2010. 55(3): p. 404-407.
Buletin Enjinier, Jun 2015 12
Figure 7: (a) Photodegradation efficiency
(b) pseudo first-order kinetic of time evolu-
tion and (c) degradation rate constant of Ni
embedded ZnO nanorods under different
UV excitation sources (254 nm and 352
nm).
EVALUATION OF EMULSIFIEDACRYLATE POLYMER AND IT’S
POUR POINT DEPRESSANTPERFORMANCE
A. Admiral,K. Z. Zakaria,
M. R. H. Rosdi, M. A. A. Razali,
A. Ariffin
School of Materials and MineralResources Engineering,
Universiti Sains Malaysia, Engineering Campus, 14300 Nibong Tebal,
Pulau Pinang, Malaysia
AbstractA traditional pour point depres-
sant (PPD) of acrylate polymer is in solidform at room temperature. The costingfor preheating is a prerequisite to be con-sidered for its utilization in a crude oilindustry. The PPD was improvised as anemulsion system in order to increase itsflow ability. Evaluation of the emulsionsystem has been elucidated and its pourpoint depressant performance has alsobeen studied. The emulsified productcould flow as low as -20oC. The viscosityof emulsified product is much lower thantraditional PPD, which is about 16 CP. Theparticle size of the sample becomesincreased by freeze thawed activities, butdoes not affect the stability of the emul-sion. The zeta potential is about -43 MVshowing that the emulsion is in the stablerange. The pour point performance ofemulsified product is better compared totraditional PPD. The increasing trends ofperformance by increasing the injectionshowing that the polymer content is themost influenced factor that increasedpour point performance of emulsifiedproduct.Keywords: Emulsified PPD, emulsion eval-uation, PPD performance
1.0 IntroductionA traditional pour point depressant ofacrylate polymer (Trade name: PD90) hashigher polymer-solvent interaction andlow glass transition temperature. It willcause the PD90 to solidify at room tem-perature. To resolve this problem, emul-sion technique was used to create emulsi-fied PD90 to form fine droplets in a mix-ture. The emulsion has two differentphases in which the water-based will forma continuous phase to act as a carrier forthe oil polymer-based hence give a betterflow ability to PD90[1]. However, theknowledge on the emulsion state of theacrylate polymer after being emulsified isstill scarce in the literature. Hence, thepresent study aims to investigate emul-
sion behavior such as freezing point, vis-cosity at room temperature, particle sizeand zeta potential of the emulsified prod-ucts and to evaluate its performance aspour point depressants towards syntheticcrude oil/paraffin wax solution after beingemulsified.
2.0 MethodologyPD90, emulsifier (MWV) and Solvesso 150were supplied by ACME Chemicals(Malaysia) Sdn. Bhd. Xylene and ethyleneglycol were purchased from Merck Sdn.Bhd. PD90 consist of 40 to 60 wt. % ofacrylic polymer in xylene. Emulsified PD90was prepared by mixing all chemical at 50oC and stirred at 500 rpm for 1 hour. Themixture was sonicated at 70 Hz until themixture reach 60oC. The thermal proper-ties were determined by using MettlerToledo DSC1-Differential ScanningCalorimetry (DSC), United States system
apparatus with nitrogen as purge gas.Starting from -60oC, each sample below10 mg was first heated until reaching 120oC , held isothermally and then cooled to-60oC at a pre-defined rate of 5oC/minute. Viscosity of PD90 after emulsi-fied were measured by using Brookfieldviscometer. Viscometer was loaded withsamples and sheared by using spindle setno 04. Particle size and zeta potentialwere measured on a Malvern InstrumentsNano ZS Zetasizer, using a flow throughcell with a Malvern Instruments MPT-2Multi Purpose Titrator. Freeze thawed testwas conducted by freezing the samples inchiller at temperature -10oC for 20 hours.Then the samples were taken out andheated in water bath at 50oC for about 4hours. Samples are then being cooleddown at ambient temperature beforeobservations had been made. The cycleshas been made until week 4 which equal-ly to 4 cycles. The pour point performancetesting has been made according toASTM-D97 method. The method involvesperiodically tilting a tube containing sam-ple of crude oil at decreasing tempera-tures, to find the temperature wherethere is no movement of the crude.
3.0 Results and Discussion
Flow ability of emulsified PD90Solvent based PD90 has a low meltingpoint of around 45oC which will make itsolidify at room temperature. To utilizethis chemical additive in crude oil’s well,preheating is required to make sure thatthis material is pump able. The introduc-tion of an emulsion system to PD90 wouldproduce a flow able material at room tem-perature so that the preheating costwould be discarded. Figure 1 shows theDSC curve for the solvent based PD90and emulsified PD90. From the figure, itshows that the emulsified PD90 has themelting point of -20oC while solvent basedPD90 is 45oC. This is due to the emulsionstate that allowing the water-based to actas a medium without forming any directinteraction between the polymer. In thesystem, polymer would be encapsulating
by emulsifier to present as small dropletor particle inside the water-based.Unlikely, the polymer in solvent basedPD90 had directly coiled with the solventso that solution tends to solidified at lowtemperature. Viscosity of emulsified PD90The viscosity is the most importantparameter that would be considered forachieving a good flowability of pour pointdepressant. After being emulsified, theemulsion viscosity is only 16 cP at roomtemperature as shown in Table 1. Theresulted value of emulsified product issufficiently low and suitable for applica-tion as the traditional PPD with the rangeof <300 cP [2]. Low viscosity wouldreduce the cost for pumping during appli-
Buletin Enjinier, Jun 2015 13
Article 2
Figure 1: DSC curve for PPD before and after emulsified
Type of PPD Viscosity at room
temperature, cP
Solvent based
PD90
Solidified
Emulsified PD90 16
Traditional PPD <300
Table 1: The viscosity of pour point
depressants at room temperature
cation. The viscosity of the solvent basedPD90 was not able to be measured as itsolidify at room temperature.
Particle size and zeta potential ofemulsified PD90Particle size is the most important param-eter that indicates the stability of anemulsion [3]. As an emulsion system isbeing introduced for this PD90, it has atendency to break and the solutionbecomes separated at elevated tempera-ture. In considering that factor, freezethaw test has been conducted for emulsi-fied product. Figure 2 below shows thetrend of particle size for the sample afterbeing freeze-thawed for 4 cycles within20 days. The particle size increases by thenumber of freeze-thaw cycles applied tothe samples. However, this trend wouldnot affect the stability of the emulsion asthere is no separation observed duringthe test as shown in Figure 3 below. Inorder to confirm the stability of the emul-sion, zeta potential of emulsified PD90 isalso determined. The zeta potential valueof emulsified PD90 is about -43 mV. Forsuch a situation the colloid will be morestable, the further away it is formulatedfrom the isoelectric point. The value is inthe range (±40 to ±60 mV) for good sta-bility of emulsion [4]. The electrostaticrepulsion of the particles become maincontributor that will lead to a stable dis-persion. The stable emulsion would make
sure that it would be able to use in anextreme condition as well as could
improve storage capability.
Applied test, ASTM D97A pour point depressant performance testwas conducted to study the emulsifiedPD90 response or performance towardssynthetic crude oil after being emulsified.From Figure 3, emulsified PD90 showingexcellent pour point reduction as com-pared to solvent based PD90 conductedat 50oC. This is due to ability of emulsifiedPD90 to flow at low temperature as com-pared to solvent based PD90. The flowability of emulsified PD90 provides higherenergy so that it could efficiently propa-gate in order to inhibit the crystallizationgrowth of paraffin wax. Furthermore,micron size of polymer producing fromemulsified product could provide highersurface area so that the interactionbetween polymer and paraffin wax wouldbe higher. Increase of additive dosagecould also increase the pour point reduc-tion of paraffin wax. This is attributed tohigh active content of the polymer whichefficiently inhibits the formation of crys-tallization growth of wax.
4.0 ConclusionEmulsion behavior such as freezing point,viscosity at room temperature, particlesize and zeta potential of the emulsifiedproducts has been studied. EmulsifiedPD90 could flow at room temperaturewhile solvent based PD90 become solidi-fied. Emulsified PD90 could flow at coldertemperature as the freezing point of thesolvent is around -20oC. It would ensurethat emulsified PD90 could be stored in acold environment as well. The viscosity ofemulsified PD90 at room temperaturewas much lower than traditional PPDresults of an ease handling and storage.The particle size trends have been evalu-ated after the emulsified PD90 undergofreeze thawed testing. The trend showsthe increment but do not affect the stabil-ity of emulsion. The zeta potential datahad confirmed the stability of the emul-sion. The good stability of emulsifiedPD90 would allow them to store at anycondition without any separation. Theperformance as pour point depressants
towards synthetic crude oil after beingemulsified has been successfully evaluat-ed. The performance as pour pointdepressant for emulsified PD90 is betterthan solvent based PD90. The perform-ance also increased as the active contentof polymer increased.
5.0 References1. Chen, G., & Tao, D. (2005). An exper-imental study of stability of oil–wateremulsion. Fuel Processing Technology,86(5), 499–5082. Li, Y. & Zhang, J. (2005). Prediction ofviscosity variation for waxy crude oilsbeneficiated by pour point depressantsduring pipelining. Petroleum Science andTechnology, 23(7-8), 915-9303. Kokal, S. &Al-Juraid, J. (1999).Quantification of various factors affectingemulsion stability: watercut, temperature,shear, asphaltene content, demulsifierdosage and mixing different crudes.Presented at the SPE Annual TechnicalConference and Exhibition, Houston,Texas, 3-6 October 1999. SPE-56641-MS4. Hunter, R. J. (2013). Zeta potential incolloid science: principles and applica-tions (Vol. 2). Academic press.
EDGAR EXPERIMENTAL MINE: THE REAL LIFE MINING
ENGINEERING STUDENT’SEXPERIENCE
Teuku Andika Rama Putra, School of Materials and Mineral
Resources Engineering, Universiti Sains Malaysia,
Engineering Campus, 14300 Nibong Tebal,
Pulau Pinang, Malaysia
1.0 IntroductionThe mountains above Idaho Springs andthe nearby communities of Black Hawk,Central City and Georgetown show theabandoned mine openings and remnantsof a romantic past: the "Rush to theRockies" and feverish mining for silverand gold. The Edgar mine, the ColoradoSchool of Mines (CSM) ExperimentalMine, is a contemporary to that era. Inthe 1870s, it produced high-grade silver,gold, lead and copper. Today, as anunderground laboratory for future engi-neers, it produces valuable experience forthose who are being trained to find,develop, and process the world's naturalresources.The Edgar mine is located inIdaho Springs, approximately 40 mileswest of Denver, Colorado, U.S.A. It can bereached by Interstate 70 or U.S. 6.
The CSM Mining Engineering Departmentis proud of the Edgar Experimental Mineand the purposes it serves: educational
Buletin Enjinier, Jun 2015 14
Figure 2: Particle size trends by number ofcycles
Figure 3: Emulsified PD90 before (left) andafter (right) being freeze thawed for 20 days
Figure 3:Pour point depressant performancefor solvent based PD90 and emulsified PD90.
Article 3
tours for the public and school groups;cooperation with industry, state, and fed-eral organizations in research; and train-ing of the manpower needed to maintainthe nation's leadership in the field of min-eral engineering. Industry is highly sup-portive of the research and educationalprograms at the mine. In fact, most of theequipment used at the mine is donatedby individual businesses and corpora-tions.
2.0 An Underground ClassroomThe Edgar Experimental Mine (Figure 1)provides CSM students in MiningEngineering and other disciplines with aunique environment for research andpractical training in mining techniquesand systems. In this underground labora-tory, CSM students gain hands-on experi-ence in underground mine surveying,geological mapping, rock fragmentationand blasting practice, mine ventilationfield studies, rock mechanics instrumen-tation practice, underground mine unitoperations, and mine safety. Through acourse in the practical use of miningequipment, students can apply classroomexercises to real situations in a realisticmining environment.
The course runs the full cycle of under-ground mining operations, and includeshands-on experience with drilling, blast-ing, and mucking (loading blasted rock)using both rail mounted and rubber-tiredmining equipment. By the completion ofthe course students have earned safetycredentials in underground mining froman MSHA certified mine safety traininginstructor.Although the Edgar Experimental Mine ismanaged and operated by the MiningEngineering Department, students from
other disciplines have the opportunity tointeract with the mine through projects inboth EPICS and Senior Design. Examplesin recent years includes: Documentationand Design of a Mine Water DistributionNetwork for the Edgar Experimental Mine,Design of a Power Distribution Network ofthe Edgar Experimental Mine Army Adit,Modifications to the Surface DrainageNetwork for the Edgar Experimental Mine,Design of a Compressor Installation forthe Edgar Experimental Mine Army Adit.
3.0 ResearchResearch is carried out on a continuingbasis at the Edgar Experimental Mine.Numerous academic, government, andindustry groups, including the CSMMining Engineering Department, theNational Institute for Occupational Safetyand Health (NIOSH), the U.S. Army,MainNet, Vital Alert and others participatein cooperative research ventures at thefacility. Studies include tunnel detection,blasting, rock mechanics, communica-tions and development of new miningequipment and methods.
4.0 Industrial Outreach ProgramsThe CSM Mining Engineering Departmentconducts a comprehensive industrial out-reach program, including mine rescuetraining, for the mining industry.Collaborators include the ColoradoDivision of Minerals and Geology (CDMG)and the Western Mining Resource Center(WMRC).
5.0 Edgar Mine Rescue TrainingProgram
The Mining Engineering Department –Mine Safety and Health Program (Figure2) operates a full function mine rescuetraining facility for use by the miningindustry. Mine rescue training can bedeveloped and tailored to the specificneeds of any mining operation. Specialtraining can be conducted for mine oper-ators to address the individual needs ofvirtually any mine. The rescue trainingincludes:
• Incident Command for Mine/Underground emergencies
• Comprehensive Mine and Underground Search and Rescue
• Computer rescue simulation training
• General Heavy Lifting and Rescue using air bags
• Confined space rescue training• Rope rescue training• Mine firefighting
Courses can be conducted either on-siteat the Edgar Mine or at mine sites any-where within the United States. TheMining Engineering Department (MSHP)collaborates with the Colorado Division ofReclamation, Mining and Safety to con-duct Mine Emergency ResponseDevelopment exercises, mine rescue con-tests, and other training.
bersambung ke m/s 9...
15Buletin Enjinier, Jun 2015
Figure 1. A. Edgar Mine tunnel gate, B. Tunnel with railroad, C. Training class con-
ducted inside Edgar Mine, D. Jet drilling activity in the Edgar Mine.
Figure 2. Mine safety, health and rescue
training program at Edgar Mine
Mutiara kata:
Dari Abu Hurairah r.a. katanya, NabiMuhammad s.a.w pernah bersabda:
"Orang Mukmin yang paling sempurnaimannya ialah mereka yang paling baik
akhlaknya..."(Riwayat Al-Bukhari & Muslim)
16Buletin Enjinier, Jun 2015
FOTO AKTIVITI STAF DAN PELAJAR PPKBSM (JAN - JUN 2015)
Majlis bacaan Yaasin, tahlil dan doa selamat Hari keluarga Kelab Pelajar Ijazah Tinggi
Kejohanan Bowling Piala Prof. Dr. Hazizan
Md. Akil
Lawatan pelajar Universiti Kuala Lumpur
(UniKL)
Nanomaterials short course Ceramah industri bersama pelajar tahun tiga
kejuruteraan bahan