OEM ODM Supports Customized Titanium Heat Exchanger Housing PVC Seamless Titanium Tubes as Thermal Conductors

• Self-patented technology.
• Seamless pure titanium tube has super strong corrosion proof ability and high intensity.
• Due to its perfect structure design, the PVC shell can stand high working pressure. The max working pressure in water side can be 2.5 MPa. Titanium tube can stand 5.2MPa high pressure.
• Its loading capacity can pass the CE, UL, ETL requirement, 100,000 times alternating pressure test shows it can be used more than 20 years

Titanium alloy is an alloy based on titanium and composed of other elements. Titanium has two types of isomorphic crystals: close-packed hexagonal structure below 882 ºC α Titanium, body centered cubic above 882 ºC β Titanium.
The alloy elements can be divided into three categories according to their impact on the phase transformation temperature:
Stable α The elements that increase the phase transition temperature are α Stable elements such as aluminum, carbon, oxygen, and nitrogen. Among them, aluminum is the main alloying element of titanium alloy, which has significant effects on improving the strength of the alloy at room and high temperatures, reducing the specific gravity, and increasing the elastic modulus.
Stable β The elements that reduce the phase transition temperature are β Stable elements can also be divided into isomorphic and eutectoid types. Products with titanium alloy application
The former includes molybdenum, niobium, vanadium, etc; The latter include chromium, manganese, copper, iron, silicon, etc.
The elements that have little effect on the phase transition temperature are neutral elements, such as zirconium and tin.
Oxygen, nitrogen, carbon, and hydrogen are the main impurities in titanium alloys. Oxygen and nitrogen in α There is a large solubility in the phase, which has a significant strengthening effect on titanium alloys, but it reduces plasticity. Generally, the content of oxygen and nitrogen in titanium is specified to be below 0.15 to 0.2% and 0.04 to 0.05%, respectively. Hydrogen in α The solubility in the phase is very small, and excessive hydrogen dissolved in titanium alloys can produce hydrides, making the alloy brittle. Generally, the hydrogen content in titanium alloys is controlled below 0.015%. The dissolution of hydrogen in titanium is reversible and can be removed by vacuum annealing.

Food industry: Milk pasteurization Milk and beverage pasteurization, Wine tempering, Bottled water treatment, CIP (Cleaning-in-Place) heating, Reverse osmosis water.
Marine application: Central cooling of the main or auxiliary engines or turbines, Lubrication oil cooling, Recooling of circulated water for cooling cylinders, pistons, injection nozzles, Cooling of Baoder oil, compressor oil and other lubricants, Preheating of lubrication oil and heavy fuel oil, Preheating of seawater for fresh water production, Heat recovery, Heat exchange to air-condition the passengers' cabins and freight spaces Others: Turbine oil cooler, Chemical industry, district heating, district
cooling, swimming pool heating, solar heating.

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