| ปี พ.ศ. 2554 |
| 1 |
Fatigue in metal castings |
| 2 |
Isothermal Phase Transformation Sequence in Fe-22wt%Cr-3.2wt%Mo-6.2wt%Ni-0.037wt%C Cast Duplex Stainless Steel |
| ปี พ.ศ. 2553 |
| 3 |
Control of cast irons by thermal analysis |
| 4 |
Age Hardening and Precipitation Behavior of an Experimental Cast Al-Mg-Si Alloy Treated by T6 and T6I6 Heat Treatments |
| 5 |
Quantitative Analysis of a Complex Metal Carbide Formed During Furnace Cooling of Cast Duplex Stainless Steel Using EELS and EDS in the TEM |
| 6 |
Some aspects of zinc base casting alloys |
| 7 |
The nature of stacking faults within iron-chromium carbide of the type (Fe,Cr)7C3 |
| ปี พ.ศ. 2552 |
| 8 |
Effects of Heat Treatment on Microstructure and Properties of 20wt%Cr and 27wt%Cr White Cast Irons |
| 9 |
Effects of Heat Treatment on Microstructure and Corrosion resistance of 18wt%Cr-3wt%C-5wt%W Iron Cast by a Semi-Solid Process |
| 10 |
Ferrous casting alloys for heat resistance |
| 11 |
Microstructural Aspects of Alloy White Irons |
| 12 |
Flow Analysis Simulation Study on Improving Gas Nitriding Condition for Heat Treatment Process of H13 Extrusion Die |
| 13 |
The Use of Flow Simulation in a Study of Producing Anodic Film Thickness form on Extruded 6063 Aluminium Profile Effected by Flow Condition in Electrolyte Bath |
| 14 |
Flow Analysis Simulatiion Study on Improving Homogenisation of Aluminium Alloy Extrusion Billet |
| ปี พ.ศ. 2551 |
| 15 |
Enhancing wettability of SiC in semisolid A356 aluminium matrix composites |
| 16 |
Effects of Heat Treatment on Hardness and Dry Wear Properties of a Semi-Solid Processed Fe-27 wt pct Cr-2.9 wt pct C Cast Iron |
| 17 |
Electron microscopy and hardness study of a semi-solid processed 27 wt%Cr cast iron |
| 18 |
Compacted graphite irons on the move |
| 19 |
The Basics of Microanalysis |
| 20 |
Some aspects of titanium alloy castings |
| ปี พ.ศ. 2550 |
| 21 |
Use of electron microscopy on microstructure characterization of high chromium cast irons |
| 22 |
XRD and electron microscope study of a heat treated 26.6% chromium white iron microstructure |
| 23 |
Inoculation of cast irons: practices and developments |
| 24 |
Light Metals Castings Research in Thailand |
| 25 |
The Environment and Thai Foundries |
| ปี พ.ศ. 2549 |
| 26 |
It's hot work for die steels |
| 27 |
Clean foundries in Thailand - can do |
| ปี พ.ศ. 2548 |
| 28 |
Microstructural and crystallographical study of carbides in 30wt.%Cr cast irons |
| 29 |
An Unusual Structure of an As-cast 31%Cr Alloy White Iron |
| 30 |
An Introduction to Failure Analysis |
| 31 |
An Introduction to Fracture Toughness |
| 32 |
Some Metallurgical Aspects in the Heat Treatment of Low and Medium Alloy Steels |
| 33 |
Progress in cast metals research in Thailand |
| ปี พ.ศ. 2547 |
| 34 |
A Microstructural Study of Destabilised 30wt%Cr–2.3wt%C High Chromium Cast Iron |
| 35 |
XRD and electron microscope study of an as-cast 26.6% chromium white iron microstructure |
| 36 |
A Master Plan for Thailand's Foundry Industry |
| 37 |
An Introduction to Microstructure Control by Heat Treatment in Steel Castings |
| 38 |
Some Factors Affecting Die-Casting Die Life |
| 39 |
Materials Characterisation - Which Technique Should We Use? |
| 40 |
Some Causes of Machining Problems in Cast Irons |
| 41 |
Helping Thai foundries to help themselves |
| 42 |
Inclusions in Castings |
| ปี พ.ศ. 2546 |
| 43 |
Stainless Steel Castings : Heat Treatment Stops the Rot |
| 44 |
Heat Treatment of Ductile Irons |
| 45 |
Current and future directions for R&D castings production in the Thai foundry industry |
| ปี พ.ศ. 2545 |
| 46 |
A Microscopical Investigagion of the Interface Between Borosilicate Glass and Fe-Ni-Co Alloy Joined by Direct Fusion of Glass to Metal |
| 47 |
Heat Treatment of Aluminium Alloys |
| 48 |
Saving Energy in Foundries - A Reminder |
| 49 |
High chromium cast irons to resist abrasive wear |
| ปี พ.ศ. 2544 |
| 50 |
Heat Treatment of High Chromium Cast Irons |
| 51 |
Reverse Engineering - Some metallurgical aspects |
| 52 |
Progress in aluminium base castings |
| ปี พ.ศ. 2541 |
| 53 |
Effect of Sand Properties and Pouring Temperature on Casting Defect |
