引進t2racing公司生產的鈦絲鎖止器。
此款留影是由64個鈦合金制成。
它是針對6mm螺栓的。
陽極氧化【藍色】
Pvd塗層【黑色】
您可以選擇兩種顏色。
什么是pvd塗層?
pvd塗層是 "物理氣相沉積 "的簡稱,是一種表面處理方法,稱為物理氣相沉積。
物理氣相沉積是指水在沸騰時,水滴附着在容器內部的原理。
物理氣相沉積法的原理是當水沸騰時,水滴粘附在容器內部,利用這一原理,在真空爐中用等離子體溶解待鍍金屬,並蒸發形成正離子,正離子與引入的氣體反應形成負離子。
PVD塗層是利用等離子體將物質溶解並蒸發成正離子的過程。
pvd塗層增強了金屬表面的耐久性和保護性。
pvd塗層可以提高金屬表面的性能,如耐磨性、耐粘性、脫模性等。
pvd塗層的表面膜不易剝離。
pvd塗層可用於切削刀具、機械零件、精密模具零件等各種用途。
64什么是鈦?
鈦可分為純鈦和鈦合金兩大類。
鈦合金的典型例子是用於飛機的高強度合金jis60型(ti 6al-av)。
這種高強度合金jis60,俗稱 "64鈦"。
鈦的特性包括優良的耐腐蝕性和輕比重。<此外,鈦合金是目前使用的金屬中比強度最高的金屬之一。
鈦合金在所有使用的金屬中具有最高的比強度。
在鈦合金中,64鈦的抗拉強度比純鈦高,是一種不易斷裂的材料。
Introducing T2 Racing Titanium Wire Lock Brackets.
This is 64 titanium bracket.
It is for 6mm bolt.
Anodized [Blue]
PVD coated [Black]
available in two color.
What is PVD coating?
It is a surface treatment method called "PVD", which stands for "Physical Vapor Deposition".
Physical vapor deposition refers to the principle that "when water is boiled, water droplets adhere to the inside of the container".
Using this principle, the metal for the film is dissolved and evaporated by plasma in a vacuum furnace to form positive ions, which are then reacted with the introduced gas to form negative ions, which collide with the surface of the product to be coated, forming a film.
A film with an oblique structure with excellent durability is formed, and it has many excellent features such as high hardness and high adhesion.
PVD coating reinforces and protects the durability of metal surfaces.
It can improve various performance of metal such as abrasion resistance, adhesion resistance, and mold release property.
It is also a feature of PVD coating that the film on the surface does not peel off easily.
It is used for cutting tools, various machine parts, precision mold parts, and various other applications.
What is 64 Titanium?
Titanium can be mainly divided into two types: pure titanium and titanium alloy.
A typical example of titanium alloy is JIS60 (Ti 6AL-AV), a high-strength alloy used in aircraft.
This high-strength alloy type JIS 60 is commonly called "64 titanium".
Titanium is characterized by its excellent corrosion resistance and light specific gravity.
Titanium alloys in particular have the highest specific strength of all the metals in use.
While most metals become softer and lose their strength at higher temperatures, titanium alloy can maintain its strength up to about 600 degrees.
Among titanium alloys, 64 titanium has higher tensile strength than pure titanium, and is a hard-to-break material.