R&D
| Serial Number | Name | Equipment |
| 1 | Melting and Casting Laboratory | Capable of vacuum or non-vacuum processing for non-ferrous alloys such as aluminum, magnesium, copper, lead, zinc, and rare earth metals. Experimental studies on melting processes, including metal mold casting, water-cooled semi-continuous casting, sand casting, and investment casting. |
| 2 | Chemical Analysis Laboratory | Performing analytical testing of various metallic and non-metallic elements in non-ferrous alloys such as aluminum, magnesium, copper, lead, zinc, and more. |
| 3 | Microstructure Analysis Laboratory | Equipped with equipment such as metallographic microscopes, scanning electron microscopes, transmission electron microscopes, and X-ray systems, we can observe Material structures magnified from 50x to 200x reveal details ranging from macroscopic features visible to the naked eye down to the atomic level. Analyzing the alloy material at the microscopic level using X-ray diffraction, energy-dispersive spectroscopy, and diffraction patterns. Point analysis determines the microstructural morphology, phase structure, and phase composition of alloy materials. |
| 4 | Physics Performance Laboratory | Equipped with a variety of material physical property testing methods, we can assess the thermodynamic properties and durability of materials. Grinding performance, electrical performance, magnetic performance, surface roughness, and film thickness. |
| 5 | Mechanical Properties Laboratory | It can be applied to non-ferrous alloy materials such as aluminum, magnesium, copper, lead, zinc—covering room temperature, high temperature, and low-temperature conditions. Testing includes tensile strength, compressive strength, elongation, hardness, creep resistance, and creep rupture strength. |
| 6 | Corrosion and Protection Laboratory | Research on surface corrosion and protection of non-ferrous alloys such as aluminum and magnesium—mainly focusing on alloy corrosion studies. Research on corrosion behavior and mechanisms, including passivation, anodizing, micro-arc oxidation, and electroplating of aluminum and magnesium alloys. Research on treatment processes such as plating, chemical plating, plasma spraying, and painting. |
| 7 | Connecting the laboratory | Joining and combining non-ferrous alloy materials through processes such as argon arc welding, laser welding, and friction stir welding, Main research areas include the preparation and joining of high-performance materials, as well as the forming of complex structures and reliability analysis. |
| 8 | Non-Destructive Testing Laboratory | Equipped with methods such as ultrasonic testing, X-ray inspection, and magnetic particle testing, we can detect defects in both ferrous and non-ferrous metal forgings. Parts, castings, welded components, and machined parts—surface and internal defects (cracks, cold shuts, inclusions, Loose structures, folds, air pockets, and more). |
| 9 | Heat Treatment Laboratory | Solid solution treatment and homogenization annealing can be performed on non-ferrous alloy materials such as aluminum, magnesium, copper, lead, zinc, and more. Heat treatments such as recrystallization annealing and artificial aging. |
| 10 | Plastic Forming Laboratory | Rolling, extrusion, drawing, and forging process trials for non-ferrous alloys. |
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