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Router Metal Stamping Part Components Antenna Transmitter

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Router Metal Stamping Part
,
Antenna Transmitter Metal Stamping Part
,
SECC metal stamping components
Material

SECC
Finished

Beryllium Copper +ABS
Salt Spray Test

96h
Product Size

148*13.5*8mm
Product Accuracy

0.1mm
Applied To

3C Electrons
Minimum Order Quantity

10000 pcs
Price

USD0.1-0.3 per pcs
Packaging Details

32*23*17cm
Delivery Time

5-8 work days
Payment Terms

T/T
Supply Ability

10000 pcs days

Router Metal Stamping Part Components Antenna Transmitter

Name: Router Metal Stamping Part Components Antenna Transmitter
Brand: Router Metal Stamping Part Components Antenna Transmitter
SKU: Router Metal Stamping Part Components Antenna Transmitter
Price: 0.1 USD
Availability: InStock
Rating: 4.8 (168 reviews)

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Router antenna transmitter

Copper has many extremely useful properties, including:

• good electrical conductivity

• good thermal conductivity

• corrosion resistance

It is also:

• easy to alloy

• antimicrobial

• easily joined

• ductile

• tough

• non-magnetic

• attractive

• recyclable

• catalytic

See below for more information on each of these properties,and how they benefit us in our daily lives.

Good Electrical Conductivity

Copper has the best electrical conductivity of any metal,except silver. A good electrical conductivity is the same as a small electrical resistance. An electric current will flow through all metals,however they still have some resistance, meaning the current needs to be pushed (by a battery) in order to keep flowing. The bigger the resistance, the harder we have to push (and the smaller the current is). Current flows easily through copper thanks to its small electrical resistance, without much loss of energy. However, where size rather than weight is important, copper is the best choice.

Good Thermal Conductivity

Copper is a good conductor of heat. This means that if you heat one end of a piece of copper, the other end will quickly reach the same temperature. Most metals are pretty good conductors; however, apart from silver, copper is the best. It is used in many heating applications because it doesn’t corrode and has a high melting point. The only other material that has similar resistance to corrosion is stainless steel. However, its thermal conductivity is 30 times worse than that of copper.

Applications

Copper allows heat to pass through it quickly. It is therefore used in many applications where quick heat transfer is important. These include:

Device	Use
Copper plate	Saucepan bottoms
Copper Pipes	Heat exchangers in hot water tanks, under floor heating systems, all weather football pitches and rcar adiators.
Heat Sinks	Computers, disk drives, TV sets.

1: UNS Copper Alloy Designations

ALLOY

WROUGHT

CAST

Copper

C10100 to C13000

C80100 to C81200

Brass

C20500 to C28580

C83300 to C85800

Tin Brass

C40400 to C48600

C83300 to C84800

Phosphor Bronze

C50100 to C52400

C90200 to C91700

Aluminum Bronze

C60800 to C64210

C95200 to C95900

Silicon Bronze

C64700 to C66100

C87000 to C87999

Silicon Red Brass

C69400 to C69710

C87300 to C87900

Copper Nickel

C70100 to C72950

C96200 to C96900

Nickel Silver

C73500 to C79900

C97300 to C97800

2: Compositions & Properties of the More Common Copper Alloys

ALLOY UNS
No.

COMMON NAME

NOMINAL
COMPOSITION
Wt%

ELECTRICAL CONDUCTIVITY
%IACS

TENSILE
STRENGTH _*
Ksi (MPa)

C11000

Copper

99 min Cu

101

42 (290)

C12200

Phosphorus Deoxidized Copper

0.025 P

42 (290)

C17200

Beryllium Copper

1.90 Be

128 (882)**

C23000

Red Brass

15 Zn

56 (386)

C26000

Cartridge Brass

30 Zn

62 (427)

C28000

Muntz Metal

40 Zn

70 (483)

C42500

Tin Brass

10 Zn – 2 Sn

63 (434)

C51000

Phosphor Bronze A

5 Sn – 0.2 P

68 (469)

C52400

Phosphor Bronze D

10 Sn – 0.2 P

83 (572)

C65500

High Silicon Bronze A

3.3 Si – 1.0 Mn

78 (537)

C70600

Copper Nickel, 10%

10 Ni – 1.4 Fe

65 (448)

C71500

Copper Nickel, 30%

30 Ni – 0.7 Fe

4.6

73 (503)

C74500

Nickel Silver, 65-10

25 Zn – 10 Ni

73 (503)

C75200

Nickel Silver, 65-18

17 Zn – 18 Ni

74 (510)

3: Physical Properties of Copper

PROPERTY

ENGLISH

METRIC

VALUE

UNITS

VALUE

UNITS

Atomic Number

Atomic Weight

63.54

Density

0.322

lb/in³

8.92

g/cm³

Melting Point

1981

°F

1083

°C

Boiling Point

4703

°F

2595

°C

Latent Heat of Fusion

Btu/lb

205

J/g

Linear Coefficient of Thermal Expansion at: 77°F - 212°F (25°C - 100°C)

9.33 x 10^-6

in/in°F

16.8 x 10^-6

cm/cm°C

Specific Heat (Thermal Capacity) at: 68°F (20°C)
212°F (100°C)

0.0921
0.0939

Btu/lb ^°FBtu/lb ^°F

0.386
0.393

J/g°C J/g°C

Thermal Conductivity at:

68°F (20°C)

227

Btu ft/ft²hr °F

3.94

Wcm/cm²°C

212°F (100°C)

223

Btu ft/ft²hr °F

3.85

Wcm/cm²°C

Electrical Conductivity (Volume) at:

68°F (20°C) Annealed
68°F (20°C) Fully Cold Worked

100 - 101.5
97.0

%IACS
%IACS

58.0 - 58.9
56.3

MS/m(mΩmm2) MS/m(mΩmm2)

Electrical Resistivity (Volume) at:

68°F (20°C) Annealed

0.6788 - 0.669

µΩ·in

1.7241 - 1.70

_µΩ·cm

68°F (20°C) Fully Cold Worked

0.700

µΩ·in

1.78

µΩ·cm

Modulus of Elasticity (Tension) at: 68°F (20°C) Annealed

17 x 10³

Ksi

118,000

MPa

Modulus of Rigidity (Torsion) at: 20°C: 68°F (20°C) Annealed

6.4 x 10³

Ksi

44,000

MPa

4: Physical Properties of Five Common Wrought Copper Alloys

ALLOY UNS No	DENSITY lb /in³ (g /cm³)		MELTING POINT (or SOLIDUS) ºF (ºC)		ELECTRICAL CONDUCTIVITY %IACS (MS /m)		THERMAL CONDUCTIVITY Btu ft /ft²hr ºF (Wcm /cm²ºC)		THERMAL EXPANSION COEFFICIENT (Linear) X10^-6in /in ºF (X10^-6cm /cm ºC)
C11000	0.322	(8.92)	1949	(1065)	101	(58)	226	(3.94)	9.33	(16.8)
C26000	0.308	(8.53)	1680	(915)	28	(16)	70	(1.21)	11.1	(19.9)
C51000	0.320	(8.86)	1750	(950)	15	(8.7)	40	(0.71)	9.9	(17.8)
C70600	0.323	(8.94)	2010	(1100)	9	(5.2)	26	(0.46)	9.5	(17.1)
C75200	0.316	(8.73)	1960	(1070)	6	(3.5)	19	(0.33)	9.0	(16.2)