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China Customized Nickel Alloy Ball Valve Inconel 600 Floating Trunnion Elastic wholesale

Customized Nickel Alloy Ball Valve Inconel 600 Floating Trunnion Elastic

Name: Customized Nickel Alloy Ball Valve Inconel 600 Floating Trunnion Elastic
Brand: DINGSCO
Price: 1 USD

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Brand Name :DINGSCO

Model Number :According to customers requirements

Certification :ISO 9001:2015,PED 2014/68/EU,API 6A,API-20B,TSG,NORSOK

Place of Origin :China

MOQ :Negotiable

Price :Negotiable

Payment Terms :T/T

Supply Ability :Negotiable

Delivery Time :(Sample Order) 7 days

Packaging Details :According to Customers' Requests

Product Name :Nickle Alloy Ball Valve

Grade :Inconel 600

UNS :UNS N06600

Density :8.47 Mg/m³

Specific Heat :0.106Btu/lb-°F

Curie Temperature :-124°C

Electrical Resistivity :620ohm-circ mil/ft

Permeability at 200 oersted (15.9 kA/m) :1.010

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Nickle Alloy Ball Valve Inconel 600 Floating Trunnion Elastic

Nickle Alloy Ball Valve: The opening and closing element of a ball valve is a ball with a circular passage that rotates around an axis perpendicular to the passage. The ball moves with the valve stem to open or close the passage. A ball valve can be tightly closed with a 90-degree rotation and a very small turning torque. Depending on the operating conditions, different actuating devices can be assembled to form ball valves with various control methods, such as electric ball valves, pneumatic ball valves, hydraulic ball valves, and so on.

Principle of ball valve structure:

Ball valves are not restricted by the installation direction and the flow direction of the medium can be arbitrary. They have a low fluid resistance, and full-bore ball valves essentially have no flow resistance.
The structure of the ball valve is simple, with a relatively small volume and light weight, making it easy to maintain.
Tight and reliable. It has two sealing surfaces, and currently, the sealing surfaces of ball valves widely use various plastics, which provide good sealing and can achieve complete sealing. They have also been widely used in vacuum systems.
Ball valves are suitable for frequent operation, with quick and easy opening and closing. They are convenient to operate, opening and closing rapidly, requiring only a 90° rotation from full open to full close, which is convenient for remote control.
Easy maintenance, the structure of the ball valve is simple, and the sealing rings are usually movable, making them easy to dismantle and replace.
Ball valves have good sealing performance. When fully open or closed, the sealing surface of the ball and the seat is isolated from the medium, and the medium does not cause erosion of the valve sealing surface when passing through.
A wide range of applications, with bore sizes ranging from a few millimeters to several meters, and they can be used from high vacuum to high pressure.
Since ball valves have a wiping action during the opening and closing process, they can be used in media with suspended solid particles.
Ball valves have low fluid resistance, no vibration, and low noise.

INCONEL ALLOY 600 (nickel-chromium-iron)(UNS N06600/W.Nr. 2.4816) is a standard engineering material for applications which require resistance to corrosion and heat. The alloy also has excellent mechanical properties and presents the desirable combination of high strength and good workability.

Characteristics:

The excellent mechanical properties of this alloy endow the material with high strength and good workability. It has good corrosion resistance, especially in alkaline environments, and can be used in low and high temperature environments.

Corrosion Resistance:

Alloy 600 is able to withstand a variety of corrosion. The alloy has excellent resistance to alkaline solution performance and good resistance to strong oxidizing acid solution performance. It is particularly resistant to the erosion of dry chlorine or hydrogen chloride even at temperatures up to 650°C.

Typical Applications:

Heat exchangers
Furnaces
Aircraft exhaust systems
Nuclear reactor components
Production of caustic soda
Chemical and food processing equipment
Condensers
Evaporation tubes

Chemical Composition:

Element	Ni+Co	Cr	Fe	C	Mn	S	Si	Cu
Minimum(%)	72	14	6	-	-	-	-	-
Max(%)	-	17	10	0.15	1	0.015	0.5	0.5

Physical Properties & Mechanical Properties:

Physical Properties
Mean Coefficient of Thermal Expansion
Temperature Range
°F	°C	in/in°F	cm/cm°C
68	20	5.8 x 10^-6	10.4 x 10^-6
Mechanical Properties
Typical Values at 68°F(20°C)
Yield Strength 0.2% offset psi		Ultimate Tensile Strength (min.) psi	Elongation in 2"%
35,000		80,000	30

Thermal Properties:

Temperature	Coefficient of Expansion^a	Electrical Resistivity	Thermal Conductivity	Specific Heat
°F	10^-6in/in•°F	ohm•circ•mil/ft	Btu•in/ft²•h•°F	Btu/lb•°F
-250	6.0	-	86	0.073
-200	6.3	-	89	0.079
-100	6.7	-	93	0.090
70	5.8	620	103	0.106
200	7.4	625	109	0.111
400	7.7	634	121	0.116
600	7.9	644	133	0.121
800	8.1	644	145	0.126
1000	8.4	680	158	0.132
1200	8.6	680	172	0.140
1400	8.9	680	186	0.145
1600	9.1	686	200	0.149
1800	9.3	698	-	-
2000	-	704	-	-
°C	μm/m•°C	μΩ•m	W/m•°C	J/kg•°C
-150	10.9	-	12.5	310
-100	11.7	-	13.1	352
-50	12.3	-	13.6	394
20	10.4	1.03	14.9	444
100	13.3	1.04	15.9	444
200	13.8	1.05	17.3	486
300	14.2	1.07	19.0	502
400	14.5	1.09	20.5	519
500	14.9	1.12	22.1	536
600	15.3	1.13	22.1	578
700	15.8	1.13	25.7	595
800	16.1	1.13	27.5	611
900	16.4	1.15	-	628

Recommended Tool Types & Machining Conditions:

Operations	Carbide Tools
Roughing, with severeinterruption	Turning or Facing C-2 andC-3 grade: Negative rakesquare insert, 45° SCEA1,1/32 in. nose radius. Tooholder: 5° neg. back rake5° neg. side rake. Speed:30-50 sfm,0.004-0.008 in.feed, 0.150 in depth of cut.Dry2, oil3, or water-base coolant 4.
Normal roughing	Turning or Facing C-2 orC-3 grade: Negative ratesquare insert, 45° SCEA,1/32 in nose radius. Tooholder: 5° neg. back rake5° neg. side rake. Speed:90 sfm depending on rigidity of set up, 0.010 infeed, 0.150 in. depth ofcut. Dry, oil, or water-base coolant.
Finishing	Turning or Facing C-2 0rC-3 grade: Positive rakesquare insert, if possible45° SCEA, 1/32 in.noseradius. Tool holder: 5° pos.back rake, 5° pos. siderake.Speed: 95-110 sfm0.005-0.007 in. feed,0.040 in. depth of cut. Dryor water-base coolant.
Rough Boring	C-2 or C-3 grade: lf inserttype boring bar, use standard positive raketools with largest possibleSCEA and 1/16 in. nose radius. lf brazed tool bargrind 0° back rake, 10° posside rake, 1/32 in. nose radius and largest possible SCEA.Speed: 70 sfm depending on the rigidityof setup, 0.005-0.008 infeed, 1/8 in. depth of cut.Dry, oil or water-base coolant.
Finish Boring	C-2 or C-3 grade: Usestandard positive raketools on insert type bars.Grind brazed tools as fofinish turning and facingexcept back rake may bebest at 0°. Speed: 95-110sfm,0.002-0.004 in feed.Water-base coolant.

Processing Flow Chart:

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