A-1. Linnet Equivalent Specification Unit ACSR ACFR (Low Loss) ACFR (Low Sag) Linnet 6.8φ 8.3φ Stranding Al No/mm 26/2.888 8/(3.70) 12/(3.70) 8/(3.54) 12/(3.56) Core No/mm 7/2.245 7/2.3 7/2.8 OD Conductor Mm 18.29 18.29 18.29 Core Mm 6.735 6.80 8.30 Area Al mm 2 170.4 215 198 Core mm 2 27.7 28.2 42.1 Total mm 2 198.1 243 240 Nominal Mass Al kg/m 0.4720 0.5963 0.5495 Core kg/m 0.2165 0.0450 0.0690 Total kg/m 0.6885 0.6413 0.6185 Tensile Strength kN 62.7 71.20 100.04 AC resistance at 20°C Ω/km 0.16601 0.1307 0.1418 Modulus of elasticity Core GPa 205.9 122 131 Conductor GPa 87.3 74.3 79.0 Thermal expansion Core ×10 -6 /°C 11.5 1.0 1.0 Conductor ×10 -6 /°C 19.2 18.8 16.6 Sag S = 350 m 75°C m 10.65 10.15 9.67 175°C m - 11.93 10.33 Current 50 Hz Ambient35°C Conductor75°C A 482 543 521 Ambient35°C Conductor175°C A - 992 952 ・Area of ACFR is based on 95% of Aluminum space factor ・These figure for ACFR is based on JCS 0251 ・Significant number is based on IEC 61089 ・Current is based on “ The Institute of Electrical Engineer of Japan” method. ・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm 2 ) ・Tensile Modulus for aluminum is 68.0 GPa ・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
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A 1. Linnet Equivalent - 東京製綱株式会社 · A-1. Linnet Equivalent Specification Unit ACSR ACFR (Low Loss) ACFR (Low Sag) Linnet 6.8φ 8.3φ Stranding ... Significant number
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A-1. Linnet Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Linnet 6.8φ 8.3φ
Stranding Al No/mm 26/2.888
8/(3.70)
12/(3.70)
8/(3.54)
12/(3.56)
Core No/mm 7/2.245 7/2.3 7/2.8
OD Conductor Mm 18.29 18.29 18.29
Core Mm 6.735 6.80 8.30
Area
Al mm2 170.4 215 198
Core mm2 27.7 28.2 42.1
Total mm2 198.1 243 240
Nominal
Mass
Al kg/m 0.4720 0.5963 0.5495
Core kg/m 0.2165 0.0450 0.0690
Total kg/m 0.6885 0.6413 0.6185
Tensile Strength kN 62.7 71.20 100.04
AC resistance at 20°C Ω/km 0.16601 0.1307 0.1418
Modulus of
elasticity
Core GPa 205.9 122 131
Conductor GPa 87.3 74.3 79.0
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.2 18.8 16.6
Sag
S = 350 m
75°C m 10.65 10.15 9.67
175°C m - 11.93 10.33
Current
50 Hz
Ambient35°C
Conductor75°C A 482 543 521
Ambient35°C
Conductor175°CA - 992 952
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-2. Oriole Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Oriole 7.8φ 8.3φ
Stranding Al No/mm 30/2.69
8/(3.72)
12/(3.74)
10/(3.36)
14/(3.36)
Core No/mm 7/2.69 7/2.6 7/2.8
OD Conductor mm 18.82 18.82 18.82
Core mm 8.07 7.80 8.30
Area
Al mm2 170.2 219 213
Core mm2 39.8 37.2 42.1
Total mm2 210.3 256 255
Nominal
Mass
Al kg/m 0.4735 0.6073 0.5901
Core kg/m 0.3111 0.0610 0.0690
Total kg/m 0.7846 0.6683 0.6591
Tensile Strength kN 77.0 90.60 100.78
DC resistance at 20°C Ω/km 0.1573 0.1283 0.1321
Modulus of
elasticity
Core GPa 205.9 130 131
Conductor GPa 94.1 77.0 78.4
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 17.6 16.9
Sag
S = 350 m
75°C m 10.02 9.01 8.85
175°C m - 10.31 9.85
Current
50 Hz
Ambient35°C
Conductor75°C A 499 552 544
Ambient35°C
Conductor175°C A - 1009 995
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-3. Brant Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Brant 6.8φ 9.6φ
Stranding Al No/mm 24/3.269
8/(4.02)
12/(4.00)
10/(3.39)
14/(3.41)
Core No/mm 7/2.179 7/2.3 7/3.2
OD Conductor mm 19.61 19.61 19.61
Core mm 6.537 6.80 9.60
Area
Al mm2 201.4 252 218
Core mm2 26.1 28.2 56.3
Total mm2 227.5 281 274
Nominal
Mass
Al kg/m 0.5582 0.6997 0.6048
Core kg/m 0.2039 0.0450 0.0930
Total kg/m 0.7621 0.7447 0.6978
Tensile Strength kN 64.9 73.09 132.05
DC resistance at 20°C Ω/km 0.1409 0.1114 0.1289
Modulus of
elasticity
Core GPa 205.9 122 135
Conductor GPa 83.8 73.4 81.7
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.3 15.5
Sag
S = 350 m
75°C m 11.21 11.01 10.13
175°C m - 12.96 10.35
Current
50 Hz
Ambient35°C
Conductor75°C A 532 598 556
Ambient35°C
Conductor175°C A - 1096 1019
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-4. Lark Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Lark 7.8φ 9.6φ
Stranding Al No/mm 30/2.924
8/(4.13)
12/(4.12)
10/(3.58)
14/(3.61)
Core No/mm 7/2.924 7/2.6 7/3.2
OD Conductor mm 20.47 20.47 20.47
Core mm 8.772 7.80 9.60
Area
Al mm2 201.4 267 244
Core mm2 47.0 37.2 56.3
Total mm2 248.4 304 300
Nominal
Mass
Al kg/m 0.5595 0.7408 0.6765
Core kg/m 0.3675 0.0610 0.0930
Total kg/m 0.9250 0.8018 0.7695
Tensile Strength kN 90.3 93.04 133.36
DC resistance at 20°C Ω/km 0.1394 0.1052 0.1152
Modulus of
elasticity
Core GPa 205.9 130 135
Conductor GPa 94.1 75.6 80.6
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 18.4 16.1
Sag
S = 350 m
75°C m 10.05 9.22 8.73
175°C m - 10.96 9.40
Current
50 Hz
Ambient35°C
Conductor75°C A 540 621 594
Ambient35°C
Conductor175°C A - 1142 1091
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-5. Hawk Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Hawk 7.8φ 9.6φ
Stranding Al No/mm 26/3.439
8/(4.44)
12/(4.43)
10/(3.88)
14/(3.90)
Core No/mm 7/2.675 7/2.6 7/3.2
OD Conductor mm 21.79 21.79 21.79
Core mm 8.025 7.80 9.60
Area
Al mm2 241.7 309 285
Core mm2 39.34 37.2 56.3
Total mm2 280.8 346 342
Nominal
Mass
Al kg/m 0.6692 0.8563 0.7916
Core kg/m 0.3073 0.0610 0.0930
Total kg/m 0.9765 0.9173 0.8846
Tensile Strength kN 86.7 95.15 135.47
DC resistance at 20°C Ω/km 0.1171 0.0910 0.0985
Modulus of
elasticity
Core GPa 205.9 130 135
Conductor GPa 87.3 74.7 79.0
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.2 18.9 16.8
Sag
S = 350 m
75°C m 10.83 10.39 9.92
175°C m - 12.14 10.60
Current
50 Hz
Ambient35°C
Conductor75°C A 598 678 652
Ambient35°C
Conductor175°C A - 1250 1202
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-6. Hen Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Hen 9.3φ 9.6φ
Stranding Al No/mm 30/3.203
10/(4.06)
14/(4.06)
10/(4.04)
14/(4.03)
Core No/mm 7/3.203 7/3.1 7/3.2
OD Conductor mm 22.43 22.43 22.43
Core mm 9.609 9.30 9.60
Area
Al mm2 241.7 311 307
Core mm2 56.41 52.8 56.3
Total mm2 298.1 364 363
Nominal
Mass
Al kg/m 0.6714 0.8616 0.8506
Core kg/m 0.441 0.0850 0.0930
Total kg/m 1.111 0.9466 0.9436
Tensile Strength kN 105.9 128.74 136.54
DC resistance at 20°C Ω/km 0.1161 0.0905 0.0916
Modulus of
elasticity
Core GPa 205.9 130 135
Conductor GPa 94.1 77.0 78.4
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 17.6 17.1
Sag
S = 350 m
75°C m 10.22 9.18 9.10
175°C m - 10.43 10.12
Current
50 Hz
Ambient35°C
Conductor75°C A 605 684 680
Ambient35°C
Conductor175°C A - 1264 1256
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-7. Dove Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Dove 8.3φ 10.8φ
Stranding Al NO/mm 26/3.716
8/(4.81)
12/(4.80)
10/(4.14)
14/(4.18)
Core NO/mm 7/2.891 7/2.8 7/3.6
OD Conductor mm 23.55 23.55 23.55
Core mm 8.673 8.30 10.80
Area
Al mm2 282.0 363 327
Core mm2 45.95 42.1 71.3
Total mm2 327.9 405 398
Nominal
Mass
Al kg/m 0.7811 1.0052 0.9060
Core kg/m 0.3589 0.0690 0.1110
Total kg/m 1.138 1.0742 1.0170
Tensile Strength kN 100.5 108.37 169.56
DC resistance at 20°C Ω/km 0.1004 0.0775 0.0860
Modulus of
elasticity
Core GPa 205.9 131 126
Conductor GPa 87.3 74.6 78.4
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.2 19.0 16.7
Sag
S = 350 m
75°C m 10.87 10.47 9.85
175°C m - 12.27 10.49
Current
50 Hz
Ambient35°C
Conductor75°C A 657 747 710
Ambient35°C
Conductor175°C A - 1385 1315
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-8. Grosbeak Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Grosbeak 8.8φ 10.8φ
Stranding Al No/mm 26/3.973
8/(5.14)
12/(5.13)
10/(4.49)
14/(4.54)
Core No/mm 7/3.089 7/2.9 7/3.6
OD Conductor mm 25.15 25.15 25.15
Core mm 9.267 8.80 10.80
Area
Al mm2 322.2 414 385
Core mm2 52.5 47.3 71.3
Total mm2 374.6 461 456
Nominal
Mass
Al kg/m 0.8930 1.1481 1.0675
Core kg/m 0.4098 0.0770 0.1110
Total kg/m 1.301 1.2251 1.1785
Tensile Strength kN 112.1 122.98 172.51
DC resistance at 20°C Ω/km 0.0876 0.0679 0.0730
Modulus of
elasticity
Core GPa 205.9 131 126
Conductor GPa 87.3 74.5 77.1
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.2 19.0 17.4
Sag
S = 350 m
75°C m 11.06 10.63 10.18
175°C m - 12.43 11.06
Current
50 Hz
Ambient35°C
Conductor75°C A 714 810 782
Ambient35°C
Conductor175°C A - 1508 1455
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-9. Stilt Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Stilt 9.3φ 12.5φ
Stranding Al No/mm 24/4.387
8/(3.99)
12/(4.00)
16/(4.00)
10/(4.60)
14/(4.61)
Core No/mm 7/2.924 7/3.1 7/4.2
OD Conductor mm 26.31 26.31 26.31
Core mm 8.772 9.30 12.50
Area
Al mm2 362.5 452 400
Core mm2 47.0 52.8 95.4
Total mm2 409.7 505 495
Nominal
Mass
Al kg/m 1.005 1.2530 1.1088
Core kg/m 0.367 0.0850 0.1460
Total kg/m 1.370 1.3380 1.2548
Tensile Strength kN 113.4 135.90 224.26
DC resistance at 20°C Ω/km 0.07829 0.0622 0.0703
Modulus of
elasticity
Core GPa 205.9 130 123
Conductor GPa 83.8 74.5 78.6
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.0 16.4
Sag
S = 350 m
75°C m 11.43 11.18 10.43
175°C m - 12.78 10.85
Current
50 Hz
Ambient35°C
Conductor75°C A 763 855 806
Ambient35°C
Conductor175°C A - 1596 1503
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-10. Cuckoo Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Cuckoo 8.8φ 12.5φ
Stranding Al No/mm 26/4.623
8/(4.25)
12/(4.28)
16/(4.28)
10/(4.92)
14/(4.93)
Core No/mm 7/3.081 7/2.9 7/4.2
OD Conductor mm 27.74 27.74 27.74
Core mm 9.243 8.80 12.50
Area
Al mm2 402.8 516 457
Core mm2 52.2 47.3 95.4
Total mm2 455.0 564 553
Nominal
Mass
Al kg/m 1.116 1.4317 1.2682
Core kg/m 0.408 0.0770 0.1460
Total kg/m 1.522 1.5087 1.4142
Tensile Strength kN 124.1 128.16 227.17
DC resistance at 20°C Ω/km 0.07046 0.0544 0.0615
Modulus of
elasticity
Core GPa 205.9 131 123
Conductor GPa 83.8 73.3 77.5
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.7 17.0
Sag
S = 350 m
75°C m 11.54 11.49 10.71
175°C m - 13.65 11.30
Current
50 Hz
Ambient35°C
Conductor75°C A 814 924 872
Ambient35°C
Conductor175°C A - 1732 1632
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-11. Drake Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Drake 9.6φ 12.5φ
Stranding Al No/mm 26/4.442
10/(3.97)
14/(3.98)
18/(3.98)
10/(5.01)
14/(5.02)
Core No/mm 7/3.454 7/3.2 7/4.2
OD Conductor mm 28.14 28.14 28.14
Core mm 10.36 9.60 12.50
Area
Al mm2 402.8 522 474
Core mm2 65.6 56.3 95.4
Total mm2 468.6 578 570
Nominal
Mass
Al kg/m 1.116 1.4472 1.3150
Core kg/m 0.512 0.0930 0.1460
Total kg/m 1.627 1.5402 1.4610
Tensile Strength kN 140.1 147.44 228.03
DC resistance at 20°C Ω/km 0.07021 0.0539 0.0593
Modulus of
elasticity
Core GPa 205.9 135 123
Conductor GPa 87.1 74.5 77.2
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.2 19.1 17.1
Sag
S = 350 m
75°C m 11.06 10.68 10.10
175°C m - 12.54 10.88
Current
50 Hz
Ambient35°C
Conductor75°C A 818 932 890
Ambient35°C
Conductor175°C A - 1748 1668
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-12. Mallard Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Mallard 10.8φ 15.2φ
Stranding Al No/mm 30/4.135
10/(4.03)
14/(4.04)
18/(4.05)
12/(4.54)
16/(4.54)
Core No/mm 19/2.482 7/3.6 7/5.1
OD Conductor mm 28.96 28.96 28.96
Core mm 12.41 10.80 15.20
Area
Al mm2 402.9 539 453
Core mm2 91.9 71.3 9141
Total mm2 494.8 610 594
Nominal
Mass
Al kg/m 1.119 1.4943 1.2569
Core kg/m 0.720 0.1110 0.2210
Total kg/m 1.836 1.6053 1.4779
Tensile Strength kN 170.8 180.31 324.97
DC resistance at 20°C Ω/km 0.06972 0.0522 0.0620
Modulus of
elasticity
Core GPa 205.9 126 127
Conductor GPa 93.6 74.8 82.0
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.3 18.7 14.9
Sag
S = 350 m
75°C m 10.39 9.60 8.67
175°C m - 11.43 8.98
Current
50 Hz
Ambient35°C
Conductor75°C A 827 953 878
Ambient35°C
Conductor175°C A - 1791 1647
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-13. Cardinal Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Cardinal 9.6φ 15.2φ
Stranding Al No/mm 54/3.376
8/(4.69)
12/(4.68)
16/(4.68)
12/(4.84)
16/(4.85)
Core No/mm 7/3.376 7/3.2 7/5.1
OD Conductor mm 30.38 30.38 30.38
Core mm 10.13 9.60 15.20
Area
Al mm2 483.4 620 516
Core mm2 62.7 56.3 141
Total mm2 546.1 676 657
Nominal
Mass
Al kg/m 1.339 1.7188 1.4319
Core kg/m 0.489 0.0930 0.2210
Total kg/m 1.828 1.8118 1.6529
Tensile Strength kN 150.4 152.41 328.16
DC resistance at 20°C Ω/km 0.05873 0.0453 0.0544
Modulus of
elasticity
Core GPa 205.9 135 127
Conductor GPa 83.8 73.6 80.7
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.6 15.6
Sag
S = 350 m
75°C m 11.47 11.41 10.29
175°C m - 13.53 10.49
Current
50 Hz
Ambient35°C
Conductor75°C A 894 1032 947
Ambient35°C
Conductor175°C A - 1948 1782
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-14. Curlew Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Curlew 10.8φ 15.2φ
Stranding Al NO/mm 54/3.513
8/(4.82)
12/(4.83)
16/(4.83)
12/(3.90)
16/(3.90)
20/(3.90)
Core NO/mm 7/3.513 7/3.6 7/5.1
OD Conductor mm 31.62 31.62 31.62
Core mm 10.54 10.80 15.20
Area
Al mm2 523.4 659 573
Core mm2 67.9 71.3 141
Total mm2 591.3 730 714
Nominal
Mass
Al kg/m 1.447 1.8274 1.5900
Core kg/m 0.531 0.1110 0.2210
Total kg/m 1.978 1.9384 1.8110
Tensile Strength kN 162.8 186.39 331.05
DC resistance at 20°C Ω/km 0.0541 0.0426 0.0490
Modulus of
elasticity
Core GPa 205.9 126 127
Conductor GPa 83.8 73.7 79.6
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.3 16.1
Sag
S = 350 m
75°C m 11.47 11.29 10.43
175°C m - 13.15 10.76
Current
50 Hz
Ambient35°C
Conductor75°C A 940 1074 1006
Ambient35°C
Conductor175°C A - 2032 1900
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
A-15. Bittern Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Bittern 12.5φ 15.2φ
Stranding Al No/mm 45/4.27
10/(4.77)
14/(4.78)
18/(4.79)
12/(4.30)
16/(4.30)
20/(4.31)
Core No/mm 7/2.847 7/4.2 7/5.1
OD Conductor mm 34.16 34.16 34.16
Core mm 8.541 12.50 15.20
Area
Al mm2 644.4 754 698
Core mm2 44.6 95.4 141
Total mm2 689.0 850 839
Nominal
Mass
Al kg/m 1.785 2.0916 1.9366
Core kg/m 0.348 0.1460 0.2210
Total kg/m 2.133 2.2376 2.1576
Tensile Strength kN 151.7 242.22 337.39
DC resistance at 20°C Ω/km 0.04429 0.0373 0.0402
Modulus of
elasticity
Core GPa 205.9 123 127
Conductor GPa 76.9 74.2 77.9
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 21.0 18.9 17.0
Sag
S = 350 m
75°C m 12.84 13.09 12.56
175°C m - 14.17 12.84
Current
50 Hz
Ambient35°C
Conductor75°C A 1054 1167 1128
Ambient35°C
Conductor175°C A - 2221 2144
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-1. Skunk 相当
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Skunk 6.8φ 8.8φ
Stranding Al No/mm 12/2.59 8/(3.798) 10/(2.93)
Core No/mm 7/2.59 7/2.3 7/2.9
OD Conductor mm 12.95 12.95 12.95
Core mm 7.77 6.80 8.8
Area
Al mm2 63.2 90.6 67.4
Core mm2 36.9 28.2 47.3
Total mm2 100.1 119 115
Nominal
Mass
Al kg/m 0.1746 0.2494 0.1855
Core kg/m 0.2889 0.0450 0.0770
Total kg/m 0.463 0.2944 0.2625
Tensile Strength kN 52.79 64.89 105.42
DC resistance at 20°C Ω/km 0.4568 0.3077 0.4136
Modulus of
elasticity
Core GPa 205.9 122 131
Conductor GPa 118.8 80.8 94.0
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 15.7 15.1 10.4
Sag
S = 350 m
75°C m 8.74 6.44 5.36
175°C m - 7.37 5.46
Current
50 Hz
Ambient35°C
Conductor75°C A 327 282
Ambient35°C
Conductor175°C A - 586 505
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-2. Horse Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Horse 6.8φ 9.6φ
Stranding Al No/mm 12/2.79 6/(4.848) 10/(3.12)
Core No/mm 7/2.79 7/2.3 7/3.2
OD Conductor mm 13.95 13.95 13.95
Core mm 8.37 6.80 9.60
Area
Al mm2 73.4 111 76.5
Core mm2 42.8 28.2 56.3
Total mm2 116.2 139 133
Nominal
Mass
Al kg/m 0.2027 0.3047 0.2103
Core kg/m 0.3354 0.0450 0.0930
Total kg/m 0.5373 0.3497 0.3033
Tensile Strength kN 61.26 65.91 124.87
DC resistance at 20°C Ω/km 0.3936 0.2518 0.3648
Modulus of
elasticity
Core GPa 205.9 122 135
Conductor GPa 118.8 79.0 96.4
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 15.7 16.1 9.9
Sag
S = 350 m
75°C m 8.74 6.66 5.30
175°C m - 7.93 5.35
Current
50 Hz
Ambient35°C
Conductor75°C A 367 305
Ambient35°C
Conductor175°C A - 662 550
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-3. Tiger Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Tiger 6.8φ 7.8φ
Stranding Al No/mm 30/2.36
10/(2.99)
14/(3.00) 8/(5.02)
Core No/mm 7/2.36 7/2.3 7/2.6
OD Conductor mm 16.52 16.52 16.52
Core mm 7.08 6.80 7.80
Area
Al mm2 131.2 169 158
Core mm2 30.6 28.2 37.2
Total mm2 161.9 197 196
Nominal
Mass
Al kg/m 0.3625 0.4691 0.4356
Core kg/m 0.2399 0.0450 0.0610
Total kg/m 0.6022 0.5141 0.4966
Tensile Strength kN 57.87 68.87 87.52
DC resistance at 20°C Ω/km 0.2202 0.1661 0.1761
Modulus of
elasticity
Core GPa 205.9 122 130
Conductor GPa 94.1 75.7 79.8
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 17.9 16.2
Sag
S = 350 m
75°C m 10.16 9.18 8.78
175°C m - 10.64 9.47
Current
50 Hz
Ambient35°C
Conductor75°C A 409 470 457
Ambient35°C
Conductor175°C A - 854 830
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3MPa (5.74kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-4. Wolf Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Wolf 7.8φ 10.8φ
Stranding Al No/mm 30/2.59
10/(3.25)
14/(3.26) 10/(4.49)
Core No/mm 7/2.59 7/2.6 7/3.6
OD Conductor mm 18.13 18.13 18.13
Core mm 7.77 7.80 10.80
Area
Al mm2 158.1 200 158
Core mm2 36.3 37.2 71.3
Total mm2 194.9 237 230
Nominal
Mass
Al kg/m 0.4367 0.5541 0.4356
Core kg/m 0.2889 0.0610 0.1110
Total kg/m 0.7253 0.6151 0.5466
Tensile Strength kN 69.20 89.62 161.02
DC resistance at 20°C Ω/km 0.1828 0.1407 0.1761
Modulus of
elasticity
Core GPa 205.9 130 126
Conductor GPa 93.7 77.7 86.0
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.3 17.2 13.0
Sag
S = 350 m
75°C m 10.21 9.10 7.93
175°C m - 10.18 7.95
Current
50 Hz
Ambient35°C
Conductor75°C A 458 522 467
Ambient35°C
Conductor175°C A - 953 852
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-5. Lynx Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Lynx 8.3φ 10.8φ
Stranding Al No/mm 30/2.79
8/(3.84)
12/(3.86)
12/(2.98)
16/(3.01)
Core No/mm 7/2.79 7/2.8 7/3.6
OD Conductor mm 19.53 19.53 19.53
Core mm 8.37 8.30 10.80
Area
Al mm2 183.4 233 198
Core mm2 42.8 42.1 71.3
Total mm2 226.2 275 269
Nominal
Mass
Al kg/m 0.5070 0.6463 0.5478
Core kg/m 0.3354 0.0690 0.1110
Total kg/m 0.8416 0.7153 0.6588
Tensile Strength kN 79.97 101.81 163.01
DC resistance at 20°C Ω/km 0.1576 0.1206 0.1423
Modulus of
elasticity
Core GPa 205.9 131 126
Conductor GPa 94.1 77.6 83.4
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 17.3 14.2
Sag
S = 350 m
75°C m 10.24 9.15 8.31
175°C m - 10.26 8.50
Current
50 Hz
Ambient35°C
Conductor75°C A 502 574 529
Ambient35°C
Conductor175°C A - 1052 969
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-6. Panther Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Panther 8.3φ 9.6φ
Stranding Al No/mm 30/3.00
8/(4.21)
12/(4.20)
10/(3.71)
14/(3.72)
Core No/mm 7/3.00 7/2.8 7/3.2
OD Conductor mm 21.00 21.00 21.00
Core mm 9.00 8.30 9.60
Area
Al mm2 212.1 278 260
Core mm2 49.5 42.1 56.3
Total mm2 261.5 320 317
Nominal
Mass
Al kg/m 0.5861 0.7698 0.7217
Core kg/m 0.3877 0.0690 0.0930
Total kg/m 0.9731 0.8388 0.8147
Tensile Strength kN 92.46 104.07 134.19
DC resistance at 20°C Ω/km 0.1363 0.1012 0.1080
Modulus of
elasticity
Core GPa 205.9 131 135
Conductor GPa 94.1 76.3 79.9
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 18.0 16.4
Sag
S = 350 m
75°C m 10.24 9.31 8.95
175°C m - 10.78 9.69
Current
50 Hz
Ambient35°C
Conductor75°C A 549 637 617
Ambient35°C
Conductor175°C A - 1173 1135
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-7. Lion Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Lion 8.8φ 9.6φ
Stranding Al No/mm 30/3.18
8/(4.45)
12/(4.46)
10/(3.99)
14/(4.00)
Core No/mm 7/3.18 7/2.9 7/3.2
OD Conductor mm 22.26 22.26 22.26
Core mm 9.54 8.80 9.60
Area
Al mm2 238.3 312 301
Core mm2 55.6 47.3 56.3
Total mm2 293.9 359 357
Nominal
Mass
Al kg/m 0.6585 0.8649 0.8345
Core kg/m 0.4356 0.0770 0.0930
Total kg/m 1.0934 0.9419 0.9275
Tensile Strength kN 100.47 117.80 136.25
DC resistance at 20°C Ω/km 0.1213 0.0901 0.0934
Modulus of
elasticity
Core GPa 205.9 131 135
Conductor GPa 94.1 76.3 78.6
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 18.0 17.0
Sag
S = 350 m
75°C m 10.48 9.51 9.31
175°C m - 10.92 10.24
Current
50 Hz
Ambient35°C
Conductor75°C A 590 685 673
Ambient35°C
Conductor175°C A - 1264 1242
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-8. Bear Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Bear 9.6φ 10.8φ
Stranding Al No/mm 30/3.35
8/(4.65)
12/(4.67)
10/(4.13)
14/(4.15)
Core No/mm 7/3.35 7/3.2 3/3.6
OD Conductor mm 23.45 23.45 23.45
Core mm 10.05 9.60 10.80
Area
Al mm2 264.4 341 323
Core mm2 61.7 56.3 71.3
Total mm2 326.1 398 395
Nominal
Mass
Al kg/m 0.7306 0.9467 0.8966
Core kg/m 0.4835 0.0930 0.1110
Total kg/m 1.2134 1.0397 1.0076
Tensile Strength kN 111.50 138.30 169.38
DC resistance at 20°C Ω/km 0.1093 0.0823 0.0869
Modulus of
elasticity
Core GPa 205.9 135 126
Conductor GPa 94.1 77.5 78.5
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 17.6 16.6
Sag
S = 350 m
75°C m 10.47 9.43 9.13
175°C m - 10.59 9.92
Current
50 Hz
Ambient35°C
Conductor75°C A 630 725 706
Ambient35°C
Conductor175°C A - 1343 1307
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-9. Goat Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Goat 10.8φ 12.5φ
Stranding Al No/mm 30/3.71
10/(3.54)
14/(3.55)
18/(3.56)
12/(4.17)
16/(4.21)
Core No/mm 7/3.71 7/3.6 7/4.2
OD Conductor mm 25.97 25.97 25.97
Core mm 11.13 10.80 12.50
Area
Al mm2 324.3 416 387
Core mm2 75.7 71.3 95.4
Total mm2 400.0 487 482
Nominal
Mass
Al kg/m (0.8953) 1.1540 1.0720
Core kg/m (0.5929) 0.1110 0.1460
Total kg/m 1.4882 1.2650 1.2180
Tensile Strength kN 135.13 174.09 223.59
DC resistance at 20°C Ω/km 0.0891 0.0675 0.0727
Modulus of
elasticity
Core GPa 205.9 126 123
Conductor GPa 94.1 76.5 78.9
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 17.7 16.2
Sag
S = 350 m
75°C m 10.56 9.47 9.07
175°C m - 10.69 9.71
Current
50 Hz
Ambient35°C
Conductor75°C A 714 819 790
Ambient35°C
Conductor175°C A - 1527 1472
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-10. Sheep Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Sheep 10.8φ 12.5φ
Stranding Al No/mm 30/3.99
10/(3.87)
14/(3.87)
18/(3.88)
10/(4.97)
14/(4.97)
Core No/mm 7/3.99 7/3.6 7/4.2
OD Conductor mm 27.93 27.93 27.93
Core mm 11.97 10.80 12.50
Area
Al mm2 375.1 495 466
Core mm2 87.5 71.3 95.4
Total mm2 462.6 566 561
Nominal
Mass
Al kg/m (1.0354) 1.3730 1.2911
Core kg/m (0.6858) 0.1110 0.1460
Total kg/m 1.7213 1.4840 1.4371
Tensile Strength kN 156.30 178.09 227.59
DC resistance at 20°C Ω/km 0.0771 0.0568 0.0604
Modulus of
elasticity
Core GPa 205.9 126 123
Conductor GPa 94.1 75.3 77.4
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 18.4 17.1
Sag
S = 350 m
75°C m 10.56 9.63 9.28
175°C m - 11.23 10.22
Current
50 Hz
Ambient35°C
Conductor75°C A 780 907 881
Ambient35°C
Conductor175°C A - 1700 1650
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3MPa (5.74kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-11. Antelope Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Antelope 8.8φ 12.5φ
Stranding Al No/mm 54/2.97
8/(4.10)
12/(4.10)
16/(4.10)
10/(4.70)
14/(4.70)
Core No/mm 7/2.97 7/2.9 7/4.2
OD Conductor mm 26.73 26.73 26.73
Core mm 8.91 8.80 12.50
Area
Al mm2 374.1 475 416
Core mm2 48.5 47.3 95.4
Total mm2 422.6 523 512
Nominal
Mass
Al kg/m 1.0331 1.3179 1.1546
Core kg/m 0.3800 0.0770 0.1460
Total kg/m 1.4138 1.3949 1.3006
Tensile Strength kN 118.88 126.08 225.10
DC resistance at 20°C Ω/km 0.0773 0.0591 0.0675
Modulus of
elasticity
Core GPa 205.9 131 123
Conductor GPa 83.8 73.7 78.3
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.5 16.6
Sag
S = 350 m
75°C m 11.30 11.19 10.37
175°C m - 13.20 10.86
Current
50 Hz
Ambient35°C
Conductor75°C A 757 880 825
Ambient35°C
Conductor175°C A - 1644 1541
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-12. Bison Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Bison 8.8φ 12.5φ
Stranding Al No/mm 54/3.00
8/(4.13)
12/(4.14)
16/(4.16)
10/(4.75)
14/(4.77)
Core No/mm 7/3.00 7/2.9 7/4.2
OD Conductor mm 27.00 27.00 27.00
Core mm 9.00 8.80 12.50
Area
Al mm2 381.7 486 427
Core mm2 49.5 47.3 95.4
Total mm2 431.2 533 523
Nominal
Mass
Al kg/m 1.0554 1.3481 1.1851
Core kg/m 0.3877 0.0770 0.1460
Total kg/m 1.4425 1.4251 1.3311
Tensile Strength kN 121.30 126.63 225.66
DC resistance at 20°C Ω/km 0.0758 0.0578 0.0658
Modulus of
elasticity
Core GPa 205.9 131 123
Conductor GPa 83.8 73.6 78.0
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.5 16.7
Sag
S = 350 m
75°C m 11.30 11.21 10.40
175°C m - 13.28 10.93
Current
50 Hz
Ambient35°C
Conductor75°C A 766 892 838
Ambient35°C
Conductor175°C A - 1668 1565
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-13. Deer Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Deer 10.8φ 15.2φ
Stranding Al No/mm 30/4.27
10/(4.20)
14/(4.19)
18/(4.19)
12/(4.74)
16/(4.74)
Core No/mm 7/4.27 7/3.6 7/5.1
OD Conductor mm 29.89 29.89 29.89
Core mm 12.81 10.80 15.20
Area
Al mm2 429.6 580 494
Core mm2 100.2 71.3 141
Total mm2 529.8 651 635
Nominal
Mass
Al kg/m 1.1858 1.6077 1.3701
Core kg/m 0.7855 0.1110 0.2210
Total kg/m 1.9714 1.7187 1.5911
Tensile Strength kN 179.00 182.38 327.04
DC resistance at 20°C Ω/km 0.0673 0.0485 0.0569
Modulus of
elasticity
Core GPa 205.9 126 127
Conductor GPa 94.1 74.4 81.1
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 18.9 15.4
Sag
S = 350 m
75°C m 10.56 9.76 8.88
175°C m - 11.74 9.28
Current
50 Hz
Ambient35°C
Conductor75°C A 848 995 922
Ambient35°C
Conductor175°C A - 1875 1735
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-14. Zebra Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Zebra 9.6φ 15.2φ
Stranding Al No/mm 54/3.18
8/(4.38)
12/(4.38)
16/(4.38)
12/(4.46)
16/(4.47)
Core No/mm 7/3.18 7/3.2 7/5.1
OD Conductor mm 28.62 28.62 28.62
Core mm 9.54 9.60 15.20
Area
Al mm2 428.9 542 439
Core mm2 55.6 56.3 141
Total mm2 484.5 599 580
Nominal
Mass
Al kg/m 1.186 1.5041 1.2161
Core kg/m 0.4356 0.0930 0.2210
Total kg/m 1.621 1.5971 1.4371
Tensile Strength kN 131.9 148.48 324.22
DC resistance at 20°C Ω/km 0.06740 0.0518 0.0641
Modulus of
elasticity
Core GPa 205.9 135 127
Conductor GPa 83.8 74.3 82.4
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.2 14.7
Sag
S = 350 m
75°C m 11.56 11.41 10.13
175°C m - 13.16 10.17
Current
50 Hz
Ambient35°C
Conductor75°C A 823 954 861
Ambient35°C
Conductor175°C A - 1791 1614
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-15. Elk Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Elk 12.5φ 15.2φ
Stranding Al No/mm 30/4.50
10/(4.36)
14/(4.35)
18/(4.34)
14/(3.66)
18/(3.66)
22/(3.66)
Core No/mm 7/4.50 7/4.2 7/5.1
OD Conductor mm 31.50 31.50 31.50
Core mm 13.50 12.50 15.20
Area
Al mm2 477.1 624 568
Core mm2 111.3 95.4 141
Total mm2 588.5 719 709
Nominal
Mass
Al kg/m 1.3170 1.7293 1.5754
Core kg/m 0.8723 0.1460 0.2210
Total kg/m 2.1895 1.8753 1.7964
Tensile Strength kN 198.80 235.60 330.79
DC resistance at 20°C Ω/km 0.0606 0.0451 0.0495
Modulus of
elasticity
Core GPa 205.9 123 127
Conductor GPa 94.1 75.3 79.7
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 18.2 18.2 16.0
Sag
S = 350 m
75°C m 10.56 9.57 9.06
175°C m - 11.10 9.64
Current
50 Hz
Ambient35°C
Conductor75°C A 904 1045 1000
Ambient35°C
Conductor175°C A - 1975 1888
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-16. Camel Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Camel 9.6φ 15.2φ
Stranding Al No/mm 54/3.35
8/(4.65)
12/(4.64)
16/(4.64)
14/(3.45)
18/(3.45)
22/(3.46)
Core No/mm 7/3.35 7/3.2 7/5.1
OD Conductor mm 30.15 30.15 30.15
Core mm 10.05 9.60 15.20
Area
Al mm2 476.0 609 506
Core mm2 61.7 56.3 141
Total mm2 537.7 666 647
Nominal
Mass
Al kg/m 1.3156 1.6896 1.4031
Core kg/m 0.4836 0.0930 0.2210
Total kg/m 1.7988 1.7826 1.6241
Tensile Strength kN 146.40 151.87 327.64
DC resistance at 20°C Ω/km 0.0608 0.0461 0.0555
Modulus of
elasticity
Core GPa 205.9 135 127
Conductor GPa 83.8 73.7 80.9
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.6 15.5
Sag
S = 350 m
75°C m 11.56 11.49 10.35
175°C m - 13.57 10.51
Current
50 Hz
Ambient35°C
Conductor75°C A 877 1022 936
Ambient35°C
Conductor175°C A - 1927 1761
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C
E-17. Moose Equivalent
Specification Unit ACSR
ACFR
(Low Loss)
ACFR
(Low Sag)
Moose 10.8φ 15.2φ
Stranding Al No/mm 54/3.53
10/(4.49)
14/(4.49)
18/(4.50)
10/(5.55)
14/(5.55)
Core No/mm 7/3.53 7/3.6 7/5.1
OD Conductor mm 31.77 31.77 31.77
Core mm 10.59 10.80 15.20
Area
Al mm2 528.5 666 581
Core mm2 68.5 71.3 141
Total mm2 597.0 738 722
Nominal
Mass
Al kg/m 1.4594 1.8476 1.6100
Core kg/m 0.5368 0.1110 0.2210
Total kg/m 1.9973 1.9586 1.8310
Tensile Strength kN 159.92 186.76 331.42
DC resistance at 20°C Ω/km 0.0547 0.0422 0.0484
Modulus of
elasticity
Core GPa 205.9 126 127
Conductor GPa 83.8 73.6 79.5
Thermal
expansion
Core ×10-6/°C 11.5 1.0 1.0
Conductor ×10-6/°C 19.8 19.4 16.1
Sag
S = 350 m
75°C m 11.69 11.51 10.65
175°C m - 13.33 10.96
Current
50 Hz
Ambient35°C
Conductor75°C A 935 1080 1013
Ambient35°C
Conductor175°C A - 2044 1914
・Area of ACFR is based on 95% of Aluminum space factor
・These figure for ACFR is based on JCS 0251
・Significant number is based on IEC 61089
・Current is based on “ The Institute of Electrical Engineer of Japan” method.
・Tensile strength for annealing aluminum is 56.3 MPa (5.74 kgf/mm2)
・Tensile Modulus for aluminum is 68.0 GPa
・Tension is 20%UTS of existing ACSR (20% of tensile strength) in 15°C