Basic Info.
Model NO.
1370/1070
Alloy
Non-alloy
Aluminum
1370/1070
Tempers
O
Thickness
0.2mm-2.4mm
Width
25mm-1250mm
Applications
3 Phase Step Down Transformer
Transport Package
Wooden Pallet
Specification
bar
Trademark
Signi aluminum
Origin
Zhengzhou China
HS Code
76061190
Production Capacity
11000 Mt/Month
Product Description
1370/1070 Aluminum Flat Busbar Bus Bar for Transformer
Pure aluminum has a conductivity of about 65 percent of the International Annealed Copper Standard (lACS). Aluminum can be produced 99.99 percent pure; however, this purity is costly to achieve and the mechanical properties are low.
Aluminum 1370 is a commercial high-purity aluminum with 61 percent conductivity. The tensile strength of each 1370 temper is determined by the amount of work given the metal during fabrication. Today, most 1370 aluminum bus conductors are of -Hlli temper for extrusions, -H112 for sawed rolled plate, and -F for cast bars.
Chemical Composition
Properties
Aluminium and Copper Specifications
Definitions :
Specific Heat: The heat required to raise the temperature of its unit by mass by 1ºC.(This is a physical property)
Density: This is it's mass per unit volume. This is defined as mass divided by volume.
Melting Point: The point at which it changes state from a solid to a liquid.
Ultimate Tensile Strength: The maximum stress value as obtained on a stress-strain curve.
Ultimate Shearing Strength: The force that will shear the material, and act in the plane of the area at a right angle to the area subjected at such force.
Elastic Modulus: The ratio of the unit stress to the unit strain within the proportional limits of a material in tension or compression.
0.2% Tensile-proof Strength: (yield strength) The point between 60- 80% of the ultimate tensile strength of the material where a 0.2% permanent deformation will occur.
Coefficient of Expansion: This is the fractional change in length per degree of temperature change.
IACS: International Annealed Copper Standard.
Mechanical Properties of Aluminum Bus Conductor and Related Alloys
(The Aluminum Association ; ASTM B 236, B 241, and B 429; and Manufacturer's Listings)
Pure aluminum has a conductivity of about 65 percent of the International Annealed Copper Standard (lACS). Aluminum can be produced 99.99 percent pure; however, this purity is costly to achieve and the mechanical properties are low.
Aluminum 1370 is a commercial high-purity aluminum with 61 percent conductivity. The tensile strength of each 1370 temper is determined by the amount of work given the metal during fabrication. Today, most 1370 aluminum bus conductors are of -Hlli temper for extrusions, -H112 for sawed rolled plate, and -F for cast bars.
| loy | 1370 | Temper | O | |
| Thickness (mm) | 0.2-0.3 | 0.4-0.8 | 1.0-2.0 | 2.0-3.0 |
| Width (mm) | <100 | 100-200 | 201-500 | 500-1300 |
| Mechanical Property | ||||
| U.T.S. | Density in 20ºC | Max. Resistance in 20ºC | ||
| 60-95N/mm2 | 2.703kg/dm3 | ≤0.02825Ωmm2/m | ||
Chemical Composition
| Si | Fe | Cu | Mn | Mg | Cr | Zn | V+Ti | Others | Al. | |
| Individual | Total | |||||||||
| Max. 0.10 | Max. 0.40 | Max. 0.05 | Max. 0.01 | - | Max 0.01 | Max. 0.05 | Max. 0.02 | Max. 0.03 | Max 0.10 | Min. 99.50 |
Properties
Aluminium and Copper Specifications
Definitions :
Specific Heat: The heat required to raise the temperature of its unit by mass by 1ºC.(This is a physical property)
Density: This is it's mass per unit volume. This is defined as mass divided by volume.
Melting Point: The point at which it changes state from a solid to a liquid.
Ultimate Tensile Strength: The maximum stress value as obtained on a stress-strain curve.
Ultimate Shearing Strength: The force that will shear the material, and act in the plane of the area at a right angle to the area subjected at such force.
Elastic Modulus: The ratio of the unit stress to the unit strain within the proportional limits of a material in tension or compression.
0.2% Tensile-proof Strength: (yield strength) The point between 60- 80% of the ultimate tensile strength of the material where a 0.2% permanent deformation will occur.
Coefficient of Expansion: This is the fractional change in length per degree of temperature change.
IACS: International Annealed Copper Standard.
| Rectangular angle aluminium busbar | ||||||||||
| 3mm (thickness) | 3*15 | 3*20 | 3*25 | 3*30 | 3*40 | 3*50 | ||||
| 4mm (thickness) | 4*10 | 4*20 | 4*25 | 4*30 | 4*40 | 4*45 | 4*50 | |||
| 5mm (thickness) | 5*20 | 5*25 | 5*30 | 5*35 | 5*40 | 5*50 | 5*60 | 5*80 | ||
| 6mm (thickness) | 6*20 | 6*30 | 6*40 | 6*50 | 6*60 | 6*80 | 6*100 | 6.3*50 | 6.3*80 | ★6.3*100 |
| 7mm (thickness) | 7.6*80 | 6.3*76 | ★6.3*63 | |||||||
| 8mm (thickness) | 8*11 | 8*30 | 8*40 | 8*50 | 8*60 | ★ 8*63 | 8*80 | 8*100 | 8*120 | 8.1*74 |
| 10mm (thickness) | 10*30 | 10*40 | 10*50 | 10*60 | ★10*63 | 10*80 | 10*100 | 10*120 | 10*125 | 10*140 |
| 10*150 | 10*160 | |||||||||
| 12mm (thickness) | ★12*60 | ★12*80 | ★12*100 | 12*120 | ★ 12*125 | 12*150 | ★ 12.5*125 | |||
| 14mm (thickness) | ★14*80 | ★14*100 | Square rod | ★ 50*50 | ★ 35*55 | 19*19 | Six angle rod | ★30 | ★40 | |
| 15mm (thickness) | 15*100 | 15*120 | Round rod | ★¢10 | ★¢12 | ¢16 | ★¢28 | ★¢32 | ★¢40 | |
| 16mm (thickness) | ★16*100 | ★16*125 | Round rod | ★¢45 | ★¢46 | ★¢50 | ★¢55 | ★¢60 | ★¢65 | |
| 20mm (thickness) | ★20*80 | ★20*100 | ★¢70 | ★¢75 | ★¢80 | |||||
| Round angle aluminium busbar | ||||||||
| 2mm (thickness) | R2*20 | |||||||
| 3mm (thickness) | R3*30 | R3*40 | R3*50 | R3*60 | R3*80 | R3*100 | R3*120 | R3*160 |
| 4mm (thickness) | R4*25 | R4*30 | R4*40 | R4*50 | R4.7*151 | |||
| 5mm (thickness) | R5*30 | R5*35 | R5*40 | R5*50 | R5*60 | R5*120 | ||
| 6mm (thickness) | R6*50 | R6*60 | R6*80 | ★R6.3*63 | R6*100 | R6*120 | R6*140 | R6*160 |
| 8mm (thickness) | R8*40 | R8*50 | R8*60 | ★R8*63 | R8*80 | R8*100 | ||
| 10mm (thickness) | R10*50 | R10*60 | R10*80 | R10*100 | ★R10*120 | R10*125 | R10*170 | R10.4*25 |
| 12.5mm (thickness) | ★R12.5*80 | ★R12.5*125 | ★R16*120 | |||||
Mechanical Properties of Aluminum Bus Conductor and Related Alloys
(The Aluminum Association ; ASTM B 236, B 241, and B 429; and Manufacturer's Listings)
| Product | Alloy &Temper | Thickness in Ultimates | Tensile Strength (ksi) At 20 (68.F) | Typical Ultimate | Typical Yield | Typical(a) Elongation (Percent - in 2 in. Or 4 Dia) | |
| Minimum Ultimate | Minimum Yield | ||||||
| Extruded rod, bar tube, pipe and shapes | 1350-H111 | All | 8.5 | 3.5 | 35.0 | ||
| 6101-T6 | 0.125-0.500 | 29.0 | 25.0 | 32.0 | 28.0 | 15.0 | |
| 6101-T61 | 0.125-0.749 0.750-1.499 1.500-2.000 | 20.0 18.0 15.0 | 15.0 11.0 8.0 | ||||
| 6101-T63 6101-H111 6101-T64 6101-T65 | 0.125-0.500 0.250-2.000 0.125-1.000 0.125-0.749 | 27.0 12.0 15.0 25.0 | 22.0 8.0 8.0 20.0 | 14.0 | 11.0 | ||
| Extruded pipe(c) | 6061-T6 6063-T6 | Pipe size 1.0 & over Pipe sizes,all | 38.0 30.0 | 35.0 25.0 | 45.0 35.0 | 40.0 31.0 | 10.0 min 8.0 min |
| Rolled bar | 1350-H12 | 0.125-1.000 | 12.0 | 8.0 | 14.0 | 12.0 | |
| Sawed-plate bar or sheet | 1350-H112 | 0.125-0.499 0.500-1.000 1.001-3.000 | 11.0 10.0 9.0 | 6.0 4.0 3.5 | 10.0min 16.0min 22.0min | ||
| Rolled sheet (for shearing or forming) | 1350 1350-H12 1350-H14 | 0.020-0.249 | 8.0 12.0 14.0 | 12.0 14.0 16.0 | 4.0 12.0 14.0 | 20-30 min 4-9 min 3-6 min | |
| 1350-H16 1350-H18 | 0.020-0.125 | 16.0 18.0 | 18.0 | 16.0 | 2-4 min 2-4 min | ||
