Quality Assurance

Titanium R50400 Pipe & Tube are manufactured and controlled to international standards such as ASTM, ASME, BS, MSS, EN, DIN or WERKSTOFFE. Our products undergo stringent quality tests before they are dispatched.

Material Testing

PMI Testing, Ultrasonic Test, Mechanical Testing, Spectro Tests for Chemical Analysis of the grade, Flaring Test, IGC, etc. are some of the tests conducted at our facility. We welcome stage wise inspection from any of your representative or third party inspection agencies.

Shipping Pictures:

Treatment:

1, enhanced corrosion resistance treatment:
Atmospheric oxidation treatment and anodizing treatment; not only can improve corrosion resistance, but also prevent hydrogen embrittlement; in addition, platinized, palladium oxide / titanium oxide treatment;
2, improve wear resistance:
Above; by surfacing, an appropriate amount of nitrogen or oxygen is added to the argon gas to increase the surface hardness by 2-3 times; by ion plating, a titanium nitride is formed on the surface, and the thickness is about 5 μm. Vickers hardness is as high as 16,000-20,000 chrome plating; through the above simple understanding of titanium and its alloys, we will also understand the role of titanium and its alloys in the production of circuit boards, which will be instructive in terms of use and maintenance; Titanium has become the third largest future application prospect after magnesium and aluminum as a wide range of metals!
Among biomedical metal materials, titanium and its alloys are excellent joint performance, such as artificial joints, bone trauma products, spinal orthopedic internal fixation systems, dental implants, dental trays, artificial heart valves, interventional cardiovascular stents, etc. The preferred material for endophytic products, currently, there is no better metal material than titanium for clinical use. In the past 10 years, the market growth rate of biomedical materials and products has been maintained at around 20-25%. It is expected that in the next 10-15 years, the medical device industry including biomedical materials will reach the scale of the pharmaceutical products market and become the 21st century. The pillar industry of the world economy.
Titanium rods and titanium alloy materials have been used more and more widely in biomedicine, daily necessities, and industrial fields in recent years. At the same time, titanium alloy material is also a new important layout material used in the aerospace industry. The specific gravity, strength and operating temperature are between aluminum and steel, but the specific strength is high and it has excellent seawater corrosion resistance and ultra-low temperature function. Titanium alloys are typically used in aero engines at 20% to 30% of the total weight of the layout. They are primarily used to make compressor components such as cast titanium fans, compressor discs and blades, cast titanium compressors, intermediate machines, Bearing housing, etc. The spacecraft primarily uses titanium alloys with high specific strength, corrosion resistance and low temperature resistance to produce a variety of pressure vessels, fuel tanks, fasteners, instrument straps, frames and rocket housings. Artificial earth satellites, lunar modules, manned spacecraft and space shuttles also use titanium alloy sheet welded parts.