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Stranded Wire
HELLOSIGNAL
SJ/T 11223-2000/ ASTM B 566-93
roll, wooden spool, carton, pallet
500kgs
Normally 15 working days
NINGBO, SHANGHAI
T/T, L/C at sight, D/P at sight
Stranded Wire: CCAA/CCA/CCAM/TCCA/TCCAM STR
High-frequency signal transmission
Power transmission
SJ/T 11223-2000
ASTM B 566-93
CCAA/CCA/CCAM/TCCA/TCCAM
Spools: DIN400, DIN500, DIN630
CCAA, CCA, CCAM, TCCA, and TCCAM, explaining their composition, characteristics, and applications:
Composition: Consists of aluminum wire with a copper outside plating.
Characteristics: It is lighter than the pure copper and less costly. Even though it has lower conductance compared to pure copper, it has the positive characteristics – better soldering properties and corrosion resistance – that are due to the copper plating.
Applications: It has a wider use in economy rated wiring, speaker cables, and coaxial cables.
Composition: This is similar to what you can find in Product A; however, magnesium is introduced to the aluminum to increase the flexibility of the product.
Characteristics: Offers relatively high tensile strength and mechanical strength compared to CCA, being also light and economical material.
Applications: Useful in heavier loads type of fastening, example in aerial wires, and automotive operational systems.
Composition: Aluminum at the core, covered with a copper coating and then with a final tin coating.
Characteristics: Tinning can make the process more resistant to corrosion and can greatly improve the soldering quality. While it is not as good as pure copper in such aspects as conductivity or flexibility, it has a lighter weight and a lower cost at the same time.
Applications: It is typically used in the lines of electrical equipment, audio lines, etc., in cases where it is desirable to achieve the balance between cost and good ability to combat corrosion.
Composition: It is just like what a CCAM can look like, except with a tin coat instead of copper-isolated magnesium.
Characteristics: Being a hybrid of the strength of copper-clad aluminum conductors (CCAM) and the corrosion resistance of copper-titanium conductors (TCCA), it can handle applications that demand higher durability and environmental tolerance.
Applications: Found in both high-strength and corrosion-resistant wiring, such as those in aircraft and high-power audio systems where these properties are vital.
Composition: The only difference between these and the previous samples is the aluminum alloy core used instead of pure aluminum with copper deposited on its surface.
Characteristics: When using an aluminum alloy, strength and corrosion resistance of the wire are improved with the lightweight features also preserved. Additionally, the alloy manifests a capability to resist oxidation and last much longer in comparison with pure aluminum.
Applications: Best to be used for operations and facilities designed to have power for a long time; for instance, some cables and lines used in very strong power outputs and special-purpose tools and functions are made of it.
CCA and CCAM are mostly suitable for affordable solutions, with a more superior CCAM that strengthens the signal.
TCCA and TCCAM are tin-coated tricks that force them to be used in environments where solderability is very important, at the same time ensuring that they do not suffer from the effects of corrosion.
CCAA system is more resistant than aluminum lest used under stress for its aluminum instead of aluminum core.
There are several key factors to wire selection, which include conductivity, mechanical strength, anti-corrosion capabilities, and cost efficiency for the respective applications used.
Stranded Wire: CCAA/CCA/CCAM/TCCA/TCCAM STR
High-frequency signal transmission
Power transmission
SJ/T 11223-2000
ASTM B 566-93
CCAA/CCA/CCAM/TCCA/TCCAM
Spools: DIN400, DIN500, DIN630
CCAA, CCA, CCAM, TCCA, and TCCAM, explaining their composition, characteristics, and applications:
Composition: Consists of aluminum wire with a copper outside plating.
Characteristics: It is lighter than the pure copper and less costly. Even though it has lower conductance compared to pure copper, it has the positive characteristics – better soldering properties and corrosion resistance – that are due to the copper plating.
Applications: It has a wider use in economy rated wiring, speaker cables, and coaxial cables.
Composition: This is similar to what you can find in Product A; however, magnesium is introduced to the aluminum to increase the flexibility of the product.
Characteristics: Offers relatively high tensile strength and mechanical strength compared to CCA, being also light and economical material.
Applications: Useful in heavier loads type of fastening, example in aerial wires, and automotive operational systems.
Composition: Aluminum at the core, covered with a copper coating and then with a final tin coating.
Characteristics: Tinning can make the process more resistant to corrosion and can greatly improve the soldering quality. While it is not as good as pure copper in such aspects as conductivity or flexibility, it has a lighter weight and a lower cost at the same time.
Applications: It is typically used in the lines of electrical equipment, audio lines, etc., in cases where it is desirable to achieve the balance between cost and good ability to combat corrosion.
Composition: It is just like what a CCAM can look like, except with a tin coat instead of copper-isolated magnesium.
Characteristics: Being a hybrid of the strength of copper-clad aluminum conductors (CCAM) and the corrosion resistance of copper-titanium conductors (TCCA), it can handle applications that demand higher durability and environmental tolerance.
Applications: Found in both high-strength and corrosion-resistant wiring, such as those in aircraft and high-power audio systems where these properties are vital.
Composition: The only difference between these and the previous samples is the aluminum alloy core used instead of pure aluminum with copper deposited on its surface.
Characteristics: When using an aluminum alloy, strength and corrosion resistance of the wire are improved with the lightweight features also preserved. Additionally, the alloy manifests a capability to resist oxidation and last much longer in comparison with pure aluminum.
Applications: Best to be used for operations and facilities designed to have power for a long time; for instance, some cables and lines used in very strong power outputs and special-purpose tools and functions are made of it.
CCA and CCAM are mostly suitable for affordable solutions, with a more superior CCAM that strengthens the signal.
TCCA and TCCAM are tin-coated tricks that force them to be used in environments where solderability is very important, at the same time ensuring that they do not suffer from the effects of corrosion.
CCAA system is more resistant than aluminum lest used under stress for its aluminum instead of aluminum core.
There are several key factors to wire selection, which include conductivity, mechanical strength, anti-corrosion capabilities, and cost efficiency for the respective applications used.
