ANSI/API/ASTM/ASME Stainless Steel Carbon Steel Flanged Wedge Rising Stem Gate Valve Z41h
Iron-based laser cladding powders are used in the laser cladding process, which is a technique used to apply a protective coating or build up a desired shape on a metal surface. These powders consist of iron as the main component, along with other alloying elements to enhance specific properties. SS Powder,316L Powder,Steel Powder,Stainless Steel Powder Luoyang Golden Egret Geotools Co., Ltd , https://www.xtcalloypowder.com
ANSI flanged gate valve
Main Parameter:
Construction: Wedge rising stem
Size: 1/2"-30"
Pressure:150LB~1500LB
Body Material: Carbon Steel A216 WCB/A105 (GS-C25/ GP240GH/ 1.0619/ P285NH),, WCC, low Carbon Steel LCB, LCC, Alloy St A217 WC6, WC9, C5, C12, Stainless steel A351 CF8, CF8M, CF3, CF3M, CF8C, Duplex steel A890 GR.4A GR.5A,Titanium Etc.
Trim Material: 13%Cr,SS304,SS316, SS304L, SS316L, F11, F22 Etc
Type: Rising Stem, BB, FB, OS&Y
Operation: Hand Wheel. Gear Devices, Electric,Pneumatic Etc.
End: Flanged RF/ RTJ/ FM/ FF , Butt-welding(BW)
Full Port Design,Outside and Screw(OS&Y),Bolted bonnet,Back Seal Structure
Flexible or Solid wedge,Fully guided, Choice of Solid or Split wedge
Renewable or welded seat
Extended stem design for low temperature
Optional Bypass system
Standard:
Design And Manufacture: API 600, API 6D, BS1414,Etc
Face To Face (End To End): ANSI B16.10, API 6D,Etc
Flanged Connection:Â ANSI B16.5, ASME B16.47 Etc
Butt Welded End: ANSI B16.25,Etc
Test And Inspection: API 598, API 6D,Etc
Face to Face Std.: GB/T12221,DIN3202,Etc.
End Connection Std.: JB/T79,DIN2543-2550,GOST 12820-80,Etc.
Test Standard: ISO5208, API 600, BS 6755
Â
NO.
Part Name
Material
1
Body
ASTM A216WCB
GS-C25,CF8,CF8M
2
Seat Ring
ASTM A216+13Cr
Â
3
Wedge
ASTM A216+13Cr
Â
4
Stem
ASTM A276 420
13Cr.F304,F316
5
Gasket
304+Graphite
GS-C25,CF8,CF8M
6
Bonnet
ASTM A216WCB
Â
7
Stud
ASTM A193 B7
ASTM A193-B8
8
Nut
ASTM A194 2H
ASTM A194-8
9
Backseat
ASTM A216+13Cr
Â
10
Stud
ASTM A193 B7
Â
11
Nut
ASTM A194 2H
Â
12
Yoke
ASTM A216WCB
Â
13
Packing
Graphite
Â
14
Pin
ASTM A276 410
C.S SS304 SS316
15
Gland Bolt
ASTM A193 B7
Â
16
Gland Nut
ASTM A194 2H
Â
17
Bushing
ASTM A276 410
Â
18
Gland
ASTM A216WCB
Â
19
Bearing
ASTM A29
A105,F304,F316
20
Stem Nut
ZcuAl10Fe3 Bronze
Bronze,SS304,SS316
21
Lubricator
Cu
Brass
22
Retaining Nut
C.S
Â
23
HandwheelÂ
ASTM A47
A105,F304,F316
24
H.W. Lock Nut
C.S
25#,SS304,SS316
Warm Reminder: more complete drawing and technical specs pls contact us to get.
Iron-based laser cladding powders typically have a controlled particle size distribution and composition to ensure optimal performance during the laser cladding process. They are designed to have good flowability and excellent metallurgical bonding with the substrate material.
The laser cladding process involves melting the iron-based powder using a high-energy laser beam, which is directed onto the metal surface. The molten powder then solidifies and forms a metallurgically bonded layer with the substrate. This layer can provide improved wear resistance, corrosion resistance, or other desired properties to the metal surface.
Iron-based laser cladding powders are commonly used in industries such as aerospace, automotive, oil and gas, and manufacturing, where there is a need for high-performance coatings or repair of damaged components. They offer advantages such as precise control over the coating thickness, minimal heat input, and reduced dilution with the substrate material.
Overall, iron-based laser cladding powders play a crucial role in the laser cladding process, enabling the creation of high-quality coatings and repair of metal components with improved performance and longevity.