ACADEMIC STAFF
+  Fakulti Kejuruteraan Kimia & Sumber Asli (108)
+  Fakulti Kejuruteraan Awam & Sumber Alam (56)
+  Fakulti Kejuruteraan Elektrik & Elektronik (86)
+  Fakulti Sistem Komputer & Kejuruteraan Perisian (80)
+  Fakulti Kejuruteraan Mekanikal (96)
+  Fakulti Sains & Teknologi Industri (96)
+  Fakulti Kejuruteraan Pembuatan (55)
+  Fakulti Teknologi Kejuruteraan (60)
+  Fakulti Pengurusan Industri (49)
+  Pusat Bahasa Moden & Sains Kemanusiaan (103)
 

Search by Name Expertise

Home> FKP1000-FAKULTI KEJURUTERAAN PEMBUATAN

DR. AHMAD SHAHIR BIN JAMALUDIN

Contact No. : 09-4245866
Gender : MALE
Nationality : MALAYSIA
Current Positon : DS51-A-PENSYARAH UNIVERSITI
E-Mail : shahir@ump.edu.my
 
ACADEMIC QUALIFICATION
. 2017 : IJAZAH KEDOKTORAN (DOCTORAL DEGREE), KANAZAWA UNIVERSITY,JAPAN
. 2013 : Sarjana , UNIVERSITI MALAYSIA SARAWAK
. 2010 : Sarjana Muda dengan Kepujian, KANAZAWA UNIVERSITY,JAPAN
 
EXPERTISE
EXPERT AREA MAJOR YEARS OF EXPERTISE LEVEL
MEMPUNYAI KELULUSAN DI PERINGKA SARJANA/PH.D/PROFESSIONAL MANUFACTURING ENGINEERING
5
SANGAT TINGGI
 
EMPLOYMENT HISTORY
No Record.

   
RESEARCH
NO. TITLE ROLE START DATE END DATE STATUS
1. Simulation of Assistive Grouser Mechanism for use on Lightweight Wheeled Robot for Traversing on Unconsolidated Soft Sand Inclines Member 30-JUN-2017 29-JUN-2019 Sedang Berjalan
2. Performance study of organic based minimum quantity lubrication on machining difficult-to-cut material Leader 30-JUN-2017 29-JUN-2019 Sedang Berjalan
3. MODES AND PROGRESSION OF TOOL DETERIORATION AND THEIR EFFECTS ON CUTTING FORCE DURING END MILLING OF 718PLUS NI-BASED SUPERALLOY USING CARBIDE TOOLS Member 20-JUN-2017 19-JUN-2019 Sedang Berjalan
   
PUBLICATION
TYPE PUBLICATION TARIKH PENERBITAN TYPE OF CONTRIBUTION
REFEREED PUBLICATION
JOURNAL Analysis of laser sintered materials using finite element method 02/12/2013 In the study, cutting force increases when radial depth increases and lowest error acquired when the shear friction factor of 0.8 was applied. Machining simulation for laser sintered materials estimated lower cutting force compared with mild steel AISI1055 due to lower Young modulus. Higher cutting temperature estimated for machining simulation laser sintered material compared with machining simulation mild steel AISI1055 due to its low thermal conductivity.
   

For best view, please use Mozilla Firefox, Internet Explorer 7.0 or above with resolution 1024 x 768 pixel.

Copyright 2011 Universiti Malaysia Pahang