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1. The oxide film on the surface of the titanium seed plate is equivalent to a good durable and wear-resistant separating agent. The use of the titanium seed plate saves the separating agent, makes the plate easy to peel off, and eliminates the pretreatment process of the seed plate. Titanium seed plate The board is half as light as the copper board.
2. The service life of the titanium seed plate is more than 3 times that of the copper seed plate, and it can reach 10 to 20 years according to the operating conditions
3. The electrolytic copper crystal structure produced by titanium seed plate is dense, the surface is smooth and smooth, and the quality is excellent.
4. Since the titanium seed plate does not need to be coated with a separating agent, it can avoid the pollution of the copper electrolyte.
5. Increase the production capacity and reduce the production cost of electrolytic copper, so as to have better economic benefits.
Titanium plates and Titanium sheets are used in different applications, including construction, aviation, military, aerospace, dental prosthetics, and orthotics. The use of titanium plate not only allows the individual to enjoy the benefits of this metal’s unique properties but also provides an option to replace or repair bone. Titanium is a metal that is found in nature, and it has many important uses. There are many aspects of today’s life that titanium plates can help us with. Titanium can reduce the risk of osteoarthritis, due to its ability to immobilize joints and minimize inflammation, as well as how it helps prevent bone fractures. Titanium plates and sheets are useful for different parts of the human body because it is lightweight, strong, and can resist corrosion. There are many ways to use titanium plates including but not limited to artificial hip joints, dental implants, orthopedic implants, and bone replacements.
Hot forging is a forging process performed above the metal recrystallization temperature.Hot rolling is a rolling process performed above the recrystallization temperature.Cold rolling is a rolling process in which the plastic deformation temperature is lower than the recovery temperature.Annealing: A metal heat treatment process in which the metal is slowly heated to a certain temperature, maintained for a sufficient time, and then cooled at an appropriate rate (usually slow cooling, sometimes controlled cooling).Pickling: Immerse the workpiece in an aqueous solution such as sulfuric acid to remove films such as oxides on the metal surface. It is the pretreatment or intermediate treatment of electroplating, enamel, rolling and other processes
KUAIMA | Typical corresponding standard | Chemical composition(wt%) | ||||||||
N | C | H | Fe | O | Al | V | Ti | Other elements | ||
DT1 | JIS Class 1 | ≦0.03 | ≦0.08 | ≦0.013 | ≦0.20 | ≦0.15 | - | - | Bal | |
ASTM Grade 1 | ≦0.03 | ≦0.08 | ≦0.015 | ≦0.20 | ≦0.18 | - | - | Bal | ||
DIN3.7025 | ≦0.05 | ≦0.06 | ≦0.013 | ≦0.15 | ≦0.12 | - | - | Bal | ||
DT2 | JIS Class 2 | ≦0.03 | ≦0.08 | ≦0.013 | ≦0.25 | ≦0.20 | - | - | Bal | |
ASTM Grade 2 | ≦0.03 | ≦0.08 | ≦0.015 | ≦0.30 | ≦0.25 | - | - | Bal | ||
DIN3.7035 | ≦0.05 | ≦0.06 | ≦0.013 | ≦0.20 | ≦0.18 | - | - | Bal | ||
DT3 | JIS Class 3 | ≦0.05 | ≦0.08 | ≦0.013 | ≦0.30 | ≦0.30 | - | - | Bal | |
ASTM Grade 3 | ≦0.05 | ≦0.08 | ≦0.015 | ≦0.30 | ≦0.35 | - | - | Bal | ||
DIN3.7055 | ≦0.05 | ≦0.06 | ≦0.013 | ≦0.25 | ≦0.25 | - | - | Bal | ||
DT4 | JIS Class 4 | ≦0.05 | ≦0.08 | ≦0.013 | ≦0.50 | ≦0.40 | - | - | Bal | |
ASTM Grade 4 | ≦0.05 | ≦0.08 | ≦0.015 | ≦0.50 | ≦0.40 | - | - | Bal | ||
DIN3.7065 | ≦0.05 | ≦0.06 | ≦0.013 | ≦0.30 | ≦0.35 | - | - | Bal |
KUAIMA | Typical corresponding standard | Chemical composition(wt%) | ||||||||
N | C | H | Fe | O | Al | V | Ti | Other elements | ||
DAT5 | JIS Class 60 | ≦0.05 | ≦0.08 | ≦0.015 | ≦0.40 | ≦0.20 | 5.50~ 6.75 | 3.50~ 4.50 | Bal | |
ASTM Grade 5 | ≦0.05 | ≦0.08 | ≦0.015 | ≦0.40 | ≦0.20 | 5.5~ 6.75 | 3.5~ 4.5 | Bal | ||
DIN3.7164 | ≦0.05 | ≦0.08 | ≦0.0125 | ≦0.30 | ≦0.20 | 5.5~ 6.75 | 3.5~ 4.5 | Bal | ||
AMS 4928 | ≦0.05 | ≦0.08 | ≦0.0125 | ≦0.30 | ≦0.20 | 5.50~ 6.75 | 3.50~ 4.50 | Bal | Y≦0.005 | |
DAT5E | JIS Class 60E | ≦0.03 | ≦0.08 | ≦0.0125 | ≦0.25 | ≦0.13 | 5.50~ 6.50 | 3.50~ 4.50 | Bal | |
ASTM F136 | ≦0.05 | ≦0.08 | ≦0.012 | ≦0.25 | ≦0.13 | 5.5~ 6.50 | 3.5~ 4.5 | Bal | ||
AMS 4930 | ≦0.05 | ≦0.08 | ≦0.0125 | ≦0.25 | ≦0.13 | 5.50~ 6.50 | 3.50~ 4.50 | Bal | Y≦0.005 | |
DAT67 | ASTM F1295 | ≦0.05 | ≦0.08 | ≦0.009 | ≦0.25 | ≦0.20 | 5.50~ 6.50 | - | Bal | Nb 6.50~7.50 |
Ta≦0.50 | ||||||||||
DAT52 | JIS Class 61 | ≦0.03 | ≦0.08 | ≦0.015 | ≦0.25 | ≦0.15 | 2.50~ 3.50 | 2.00~ 3.00 | Bal | |
ASTM Grade 9 | ≦0.03 | ≦0.08 | ≦0.015 | ≦0.25 | ≦0.12 | 2.5~ 3.5 | 2.0~ 3.0 | Bal | ||
DAT52F | JIS Class 61F | ≦0.05 | ≦0.10 | ≦0.015 | ≦0.30 | ≦0.25 | 2.70~ 3.50 | 1.60~ 3.40 | Bal | S 0.05~0.20 |
(Material for free cutting) | REM 0.05~0.70 | |||||||||
DAT51 | JIS Class 80 | ≦0.05 | ≦0.10 | ≦0.015 | ≦1.00 | ≦0.25 | 3.50~ 4.50 | 20.0~ 23.0 | Bal | |
(Material for cold working) | ||||||||||
DAT54 | Daido original standard | ≦0.05 | ≦0.20 | ≦0.015 | ≦1.00 | ≦0.25 | 5.5~ 6.5 | - | Bal | Si 0.2~0.7 |
Mo 2.5~3.5 | ||||||||||
Sn 3.0~4.5 | ||||||||||
Zr 3.0~4.0 | ||||||||||
Nb 0.4~1.0 | ||||||||||
DAT55G | Daido original standard | ≦0.05 | ≦0.10 | ≦0.015 | ≦1.00 | ≦0.25 | 3.5~ 4.5 | 15.0~ 17.0 | Bal | Cr 5.0~7.0 |
DAT56M | Daido original (CATi) | ≦0.05 | ≦0.10 | ≦0.015 | 0.4~1.5 | ≦0.30 | 2.5~ 3.5 | - | Bal | Cr 12.5~14.5 |
DAT57M | Daido original (VLTi) | ≦0.05 | ≦0.10 | ≦0.015 | 0.4~1.5 | ≦0.30 | 5.5~ 6.5 | - | Bal | |
ASTM Grade41 | ||||||||||
DAT15G | AMS4914 | ≦0.05 | ≦0.05 | ≦0.015 | ≦0.25 | ≦0.13 | 2.5~ 3.5 | 14.0〜 16.0 | Bal | Cr 2.5〜3.5 |
Sn 2.5〜3.5 |
KUAIMA | Typical corresponding standard | Tensile strength | 0.2% Yield strength | Elongation | Reduction of area | 180° bending | Hardness | Heat treatment condition |
BRAND | (N/mm2) | (N/mm2) | (%) | (%) | (inner radius) | (HB) | ||
DT1 | JIS Class 1 | 270~410 | ≧165 | ≧27 | - | 2T | ≧100 | Annealing |
ASTM Grade 1 | ≧240 | ≧138 | ≧24 | ≧30 | - | - | Annealing | |
DIN3.7025 | 290~410 | ≧180 | ≧30 | - | - | - | Annealing | |
DT2 | JIS Class 2 | 340~510 | ≧215 | ≧23 | - | 2T | ≧110 | Annealing |
ASTM Grade 2 | ≧345 | ≧275 | ≧20 | ≧30 | - | - | Annealing | |
DIN3.7035 | 390~540 | ≧250 | ≧22 | - | - | - | Annealing | |
DT3 | JIS Class 3 | 480~620 | ≧345 | ≧18 | - | 3T | ≧150 | Annealing |
ASTM Grade 3 | ≧450 | ≧380 | ≧18 | ≧30 | - | - | Annealing | |
DIN3.7055 | 460~590 | ≧320 | ≧18 | - | - | - | Annealing | |
DT4 | JIS Class 4 | 550~750 | ≧485 | ≧15 | - | 3T | ≧180 | Annealing |
ASTM Grade 4 | ≧550 | ≧483 | ≧15 | ≧25 | - | - | Annealing | |
DIN3.7065 | 540~740 | ≧390 | ≧16 | - | - | - | Annealing |
KUAIMA | Typical corresponding standard | Tensile strength | 0.2% Yield strength | Elongation | Reduction of area | 180° bending | Hardness | Heat treatment condition |
BRAND | (N/mm2) | (N/mm2) | (%) | (%) | (inner radius) | (HB) | ||
DAT5 | JIS Class 60 | ≧895 | ≧825 | ≧10 | ≧25 | - | - | Annealing |
ASTM Grade 5 | ≧895 | ≧828 | ≧10 | ≧25 | - | - | Annealing | |
DIN3.7164 | ≧900 | ≧830 | ≧10 | ≧25 | - | - | Annealing | |
AMS 4928 | ≧896 | ≧827 | ≧10 | ≧25 | - | - | Annealing | |
DAT5E | JIS Class 60E | ≧825 | ≧755 | ≧10 | ≧25 | - | - | Annealing |
ASTM F136 | ≧860 | ≧795 | ≧10 | ≧25 | - | - | Annealing | |
AMS 4930 | ≧827 | ≧758 | ≧8 | ≧15 | - | - | Annealing | |
DAT67 | ASTM F1295 | ≧900 | ≧800 | ≧10 | ≧15 | - | - | Annealing |
DAT52 | JIS Class 61 | ≧620 | ≧485 | ≧15 | ≧30 | - | - | Annealing |
ASTM Grade 9 | ≧620 | ≧483 | ≧15 | ≧25 | - | - | Annealing | |
DAT52F | JIS Class 61 | ≧650 | ≧600 | ≧10 | ≧25 | - | - | Annealing |
(Material for free cutting) | ||||||||
DAT51 | JIS Class 80 | 640~900 | ≦850 | ≧10 | ≧55 | - | - | Solution |
(Material for cold working) | ||||||||
DAT54 | Daido original standard | ≧895 | ≧825 | ≧5 | ≧10 | - | - | Annealing |
DAT55G | Daido original standard | 770~1050 | ≦1000 | ≧10 | ≧25 | - | - | Solution |
DAT56M | Daido original (CATi) | 850~1100 | ≦1050 | ≧10 | ≧25 | - | - | Solution |
DAT57M | Daido original (VLTi) | ≧895 | ≧825 | ≧10 | ≧25 | - | - | Annealing |
ASTM Grade41 | ||||||||
DAT15G | AMS 4914 | 703〜 745 | 689〜 869 | ≧12 | - | - | - | Solution |
Grade | TA1,TA2,TA3,TC4,GR1,GR2,GR5 |
standard | GB/T 3621-2007,GB/T 13810-2007ASTM B265,ASTM F136,ASTM F67, |
size | T 0.5-5.0mm x W1000mm x L 2000-3500mmT 6.0- 30mm x W1000-2500mm x L 3000-6000mmT 30- 80mm x W1000mm x L 2000mm |
use | Metallurgy, electronics, medical treatment, chemical industry, petroleum, medicine, aerospace, etc. |
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Every industry has its unique set of material specifications and needs. That’s why you can count on the exceptional experience and industry knowledge of the professionals at Kuaima Steel - Meeting the Exact Needs of Every Industry That Uses steel.
We are a well known worldwide exporter of Titanium Plate Qatar, Ireland, Portugal, Gambia, Thailand, Ukraine, United Kingdom, Netherlands, South Africa, Spain, Turkey, Italy, Libya, Romania, Puerto Rico, Azerbaijan, United Arab Emirates, Pakistan, Philippines, Ghana, Slovakia, Germany, Saudi Arabia, Afghanistan, China, Bolivia, Switzerland, Bangladesh, Taiwan, Oman, Egypt, Greece, Norway, Singapore, Bulgaria, Estonia, Belgium, Yemen, Hong Kong, Ecuador, Sri Lanka, Nepal, Belarus, Finland, Gabon, Iran, Canada, Argentina, Lebanon.