Currently, pure titanium reactors, composite titanium reactors, and titanium-lined reactors are all types of titanium reactors, each suited to different industrial environments. Composite titanium reactors offer superior performance and power efficiency at a more cost-effective price than pure titanium reactors, making them widely adopted.

Titanium reactors are highly favored in aerospace, petrochemicals, healthcare, and geology due to their suitability for corrosive experiments. Titanium’s inherent reactivity allows it to form a stable passivation layer, ideal for reactions involving corrosive materials. With advantages such as high specific strength, heat resistance, corrosion resistance, and fracture toughness, titanium reactors are increasingly used in civilian sectors like automotive, power, and leisure industries. The weldability of titanium and its alloys has also gained attention, driving broader applications.

In China, spray polyurea elastomer (SPUA) technology plays a pivotal role in titanium reactor manufacturing. Weifang Yilong Nonferrous Metals Co., Ltd. pioneered the use of SPUA technology to produce customized titanium and stainless steel reactors, widely applied in petroleum, pharmaceuticals, dyes, metallurgy, and chemical research. Internationally, SPUA technology—a solvent-free, rapid-curing polyurethane method with excellent adhesion, moisture resistance, and durability—is extensively used in waterproofing, wear resistance, and corrosion protection.

Titanium reactors are versatile, serving industries such as petroleum, chemicals, food, pharmaceuticals, pesticides, and scientific research. They facilitate chemical processes like polymerization, condensation, vulcanization, alkylation, and hydrogenation, as well as organic dye and intermediate production. Utilizing a magnetic drive system, titanium reactors enable high-temperature, high-pressure reactions under inert conditions, safely handling flammable, explosive, toxic, hydrogen, and hydrofluoric acid media.

With technological advancements, custom reactor designs now emphasize composite materials. Composite titanium reactors, valued for their low density, corrosion resistance, thermal stability, and cryogenic performance, are increasingly sought after. Titanium equipment manufacturers cater to these demands by offering tailored reactor solutions.