Lühitutvustus
Gr2 titanium machining parts is an unalloyed, medium strength titanium products, it has excellent corrosion resistant, weldability, strength, ductility and formability. Because of radial forging, it has good surface, straightness and roundness.
1.Product details & nbsp;of Gr2 titanium machining parts:
Toode | Gr2 titanium machining parts |
Hinne | Gr2 |
Tehnika | CNC masin |
Standard | Kliendi sõnul |
Sertifitseerimine | ISO, EN 10204 3 .1, EN 10204 3 .2 |
Rakendus | Tööstuslik |
Spetsifikatsioon | Joonise järgi |
Osariik | Lõõmutatud |
Pind | Töödeldud / poleeritud |
MOQ | 1pc available |
Varustusvõime | 1000pcs/month |
Päritolukoht | Baoji, Hiina (mandriosa) |
2. Chemical composition of Gr2 titanium machining parts
Hinne | N, Max | C, maks | H, Max | Fe, Max | Oo, Max | Jäägid, maksimaalselt igaüks | Jäägid, maksimaalselt kokku | Ti |
Gr2 | 0.03 | 0.08 | 0.015 | 0.30 | 0.25 | 0.1 | 0.4 | Tasakaal |
3.Mechanical properties of Gr2 titanium machining parts
Hinne | Tõmbetugevus, Min MPa | Saagikustugevus Min MPa | Elongation in 4D,Min, % | Pindala vähendamine, min% |
Gr2 | 345 | 275 | 20 | 30 |
4. Rakendus & nbsp;of Gr2 titanium machining parts:
Lennukiturbiin
Mootori osad
Õhusõiduki konstruktsiooniosad
Lennunduse ja kosmonautika kinnitusdetailid
Automatiseeritud suure jõudlusega osad
Merelaevade rakendused
Spordivarustus
Ookeanitehnika
& nbsp;5.Miksvali titaan
Metalli tervislik keskkonnakaitse
Corrosion resistance, It won’t rust in the deep sea for 100 years
Lai töötemperatuur: -259 ° C ~ 500 ° C
Suur eritugevus
Suurepärane soojusülekande jõudlus
6. Machining process of titanium machining parts
Titaan käsn → 3 korda VAR sulamine → sepistamine → lihvpind → radiaalne sepistamine SPX abil -25 → sirgendamine → lõikepikkus → lõõmutamine → töötlemata töötlemine → ultraheli kontroll → peene töötlemine → CNC töötlemine → puurimisava → koputamine (vajadusel) → Poleerimine → Kontrollimine → Pakendamine → Tarnimine
7.Titaanisulamist töötlemise nõuded
1. Machining characteristics of titanium and titanium alloy
a & nbsp;small deformation coefficient: when the deformation coefficient is less than or close to 1, the distance of sliding friction on the front cutting face increases greatly, which accelerates the tool wear.
b. High chip temperature: under the same cutting conditions, the cutting temperature can be more than twice as high as when cutting 45 steel.
c. & nbsp;large cutting force per unit area: easy to cause tool breakage, increase tool wear and affect the accuracy of parts.
d. Tõsine külmakõvenemise nähtus: vähendage osade väsimustugevust ja suurendage tööriistade kulumist.
e. Tööriistade kulumine: kõrge lõiketemperatuuri ja suure lõikejõu korral pinnaühiku kohta on tööriista lihtne kleepida.
2 Tool selection
a. & nbsp;Cutting titanium and titanium alloys should be based on reducing the cutting temperature and reducing the bonding. Select a tool material with good red hardness, high bending strength, good thermal conductivity and poor affinity with titanium alloys.
b. & nbsp;It is often suitable to use YG hard tools. The commonly used hard alloy tool materials are: YG8, YG6X, YG6A, 813, 643, YS2T, YD15, etc.
c. Tööriistadena on saadaval ka teemant- ja kuubinoorsed boornitriidid.
3 Requirements for processing equipment
a. & nbsp;Set up a special processing site and determine the special machine tools for processing titanium and titanium alloys.
b. & nbsp;Laying rubber sheet or wooden floor in the work area to avoid scratching the titanium surface.
c. & nbsp;All tools, fixtures, machine tools or other devices in contact with titanium and titanium alloys must be clean.
d. & nbsp;After cleaning the titanium alloy parts, it is necessary to prevent grease or fingerprint contamination, otherwise the salt (sodium chloride) stress corrosion may be caused in the future.
e. & nbsp; Plii, vase, tina, kaadmiumi ja nende sulamite kasutamine on keelatud ning tsingi - põhistest sulamitest valmistatud tööriistad ja kinnitusdetailid on kontaktis titaanisulamitega.
4 Requirements for cutting
a. & nbsp;Due to the small elastic modulus of titanium and titanium alloys, the clamping deformation and stress deformation of the workpiece during processing will be large, which will reduce the machining accuracy of the workpiece. The clamping force of the workpiece installation should not be too large, and auxiliary support can be increased if necessary.
b. & nbsp; Lõikamisvedelik on valitud kloriidist - vabade lõikevedelike hulgast.
c. & nbsp;During cutting, a large amount of cutting fluid should be poured to sufficiently cool the titanium and titanium alloy during processing.
d. & nbsp;During processing, prevent chips from accumulating on the machine
e. & nbsp;Replace the tool immediately after using blunt, or reduce the cutting speed, increase the feed to increase the chip thickness
f. & nbsp;If fire occurs during processing, fire extinguishing equipment such as talcum powder, limestone powder, dry sand should be used to extinguish the fire. Carbon tetrachloride, carbon dioxide fire extinguishers are strictly prohibited and watering is not allowed.
8. Machine equipments
 Horisontaalne töötluskeskus |  Vertikaalne mehaaniline kese |
 CNC lathe & nbsp; |  & nbsp; CNC milling machine |
 Grinding machine & nbsp; |  & nbsp;Lathe |
9.Photos of & nbsp;Gr2 Titanium Machining Parts
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Kuum tags: gr2 titanium machining parts, China, manufacturers, suppliers, factory, customized, quotation, in stock
