In modern manufacturing, precision machining plays a vital role that resonates across industries. Its ability to manufacture complex parts with unrivaled precision, surface finish and tight tolerances puts it at the forefront of advanced manufacturing techniques.
The three most commonly used titanium alloys are TC4, TC6 and TC11, all of which are materials with high specific strength, high temperature resistance and oxidation resistance. Recently, some customers have asked such a question: Due to the different ways they use it, we hope that our materials can be used with ease by them.
Titanium alloys can be classified according to tensile strength, generally divided into low strength (≤600 MPa), medium strength (600-900 MPa), high strength (900-1200 MPa) and ultra-high strength (≥1200 MPa) four grades.
Modified cars have a long history, and the earliest modified cars are produced by drag racing owners in order to participate in the race to achieve better results. Nowadays, with the development of the automobile industry and the vigorous development of motor sports, car modification has been recognized by fans around the world and has gradually become a fashion.
Did you know that cast titanium is so unstable that it is immune to both seawater and chemical corrosion? The properties of titanium that prevent chemical corrosion, however, are the very properties that work to confound common casting techniques.
CNC & precision machining vary in control, efficiency, flexibility, applications, and costs. The choice depends on specific needs, part complexity, and accuracy requirements.
