它通過使用鈦合金Ti-6AL-4V的高強度材料,進一步實現了螺母尺寸的小型化。
也建議在需要扭矩和耐熱性的地方使用。
牛;熱鍛/切割/軋制加工
ZETA鈦制品的特點是設計簡單,不做額外的裝飾處理. 它強調了鈦的內在用途,沒有不必要的加工. 采用熱鍛壓加工方法,不僅可切削鈦合金構件,而且抗拉強度超過材料強度。頭通過精密切割確保了最佳的質量,而且由於高強度的材料,設計的尺寸更小,從而進一步降低了重量。螺桿部分采用滾壓工藝夾緊,防止磨損。
它采用了64個鈦。
它在日本被稱為“64鈦”,但正確的是JIS標准的“60型JIS”/“TAB 6400”。它被稱為“ASTM b348 Gr 5” (5)Grade 在美國ASTM標准中。意味着鋁 (半島) 6%,釩 (V) 4%包含在質量分數中,因為 Ti - 6al - 4v指定化學成分。廣泛用作醫用金屬、植入物、人造骨等,並因其耐用性廣泛應用於飛機、航天、核工業、工業渦輪、汽車、摩托車排氣系統、高爾夫球桿頭等領域。64鈦合金占整個鈦合金的70%,是最常用的合金。
輕量級 : 它的比重約為4.5. 它介於鐵7.8和鋁2.8之間. (重量為55%至60%鐵)
高強度 : 它的抗拉強度為900牛/毫米2或以上,相當於單片機435的930牛/毫米2 (鉻鉬鋼).
不生銹的 : 它不會半永久性地惡化,因為它在表面形成一個被動的薄膜。
人與環保 : 它也被用作植入物或人造骨,因為你不需要擔心金屬過敏. 此外,它是有可能回收。
美麗的 : 由於具有優良的耐腐蝕性能,也被用作裝飾產品. 也可以通過陽極氧化處理來生產各種色度。
處理困難 : 切割、壓模、焊接都需要高技術。
高昂的代價 : 除了它是一種稀有金屬外,它還需要時間來精煉和加工,因為它很困難。
與Burned-color難堪的 : 其抗摩擦能力較弱,容易發生夾緊和磨損。
它比較了鈦和其他金屬的強度。
OEM鈦 : 它比其他鈦合金便宜. 具有耐腐蝕性低、強度低的特點。
& # 945;合金 : 它具有優良的抗蠕變性能 (長期抗應力變形率). 它在焊接工作中表現優異,但其可加工性較差。
& # 946;合金 : 在鈦合金中,它的強度最高. 它具有很好的可加工性,但生產成本很高。
& # 945;- & # 946;合金 : 具有較高的強度、延展性、韌性和優良的加工性能. ZETA鈦產品使用Ti - AL - 4v (α);- & # 946;合金。
The use of a high-strength material, titanium alloy Ti-6AL-4V, has made it decrease the size of the nut and to further reduce its weight.
Recommended for areas where torque and heat resistance are required.
●Hot forging, machining, and component rolling
ZETA titanium products feature a simple design with no unnecessary decorative processing.It focuses on the original purpose of titanium, and there is no unnecessary processing.Not only cutting titanium parts, but also hot forging process is applied to achieve tensile strength that exceeds material strength.The head is precision machined to ensure optimum quality, and because of the high strength of the material, it can be designed one size smaller to further reduce weight.The rolling process is used for the threaded part to prevent seizure and galling.
●64 titanium is used
In Japan, it is commonly called "64 titanium", but the correct name is "JIS Type 60" and "TAB6400".The American ASTM standard calls it as "ASTM B348 Gr5" (Grade 5).The notation "Ti-6AL-4V" specifies the chemical composition, which means that 6% aluminum (AL) and 4% vanadium (V) are contained in the mass fraction.It is widely recognized and used as a medical metal for implants, artificial bones, etc.Because of its strength, it is used in aircraft, space industry, nuclear industry, industrial turbines, automobile and motorcycle exhausts, and golf club heads.64 titanium alloy is the most commonly used alloy, accounting for 70% of all titanium alloys.
Lightweight: Specific gravity is about 4.5.Intermediate between iron 7.8 and aluminum 2.8.(55-60% weight of iron)
High strength: Tensile strength is more than 900N / mm2, comparable to 930N / mm2 of SCM435 (chromium molybdenum steel).
No rusting: The passive film is formed on the surface, so it does not deteriorate semi-permanently.
Friendly to people and the environment: Since there is no concern about metal allergy, it is used as an implant and artificial bone.It is also recyclable.
Beautiful: It is also used as an ornament because of its excellent corrosion resistance.Various colors can be produced by anodic oxidation.
Difficult to process: High technology is required for cutting, press forming and welding.
High price: In addition to being a rare metal, it takes time to refine and is difficult to process.
Seizure and galling: Weak against friction and prone to seizure and galling.
●Comparison in Strength between types of titanium and other Metals
Pure titanium: It is less expensive than other titanium alloys.Excellent in corrosion resistance but low in strength.
α alloy: Excellent in creep resistance (deformation rate against stress for a long time).Excellent in welding work, but poor in workability.
β alloy: It has the highest strength among the titanium alloys.It has excellent processability, but the production cost is very high.
α-β alloy: It has high strength, ductility and toughness, and excellent workability.ZETA titanium products are made of Ti- AI-4V with alpha-beta alloy.