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Caput Line Conductor

AAAC Conductor

BS EN 50183 AAAC Aluminium Alloy Conductor Cable

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Product Details

Product parametri

Applicationem

AAAC Aluminium Alloy Conductor Cable nudum caput conductor adhibetur ad distributionem primariam et secundariam.Aluminium admisceant ad altam vim ad efficiendam vim altam ad rationem ponderis adhibendam;sag bona praebet naturas.
(1) AAAC conductores late adhibentur ad distribuendum caput et lineas transmissiones ad litora oceani adiacentes ubi quaestio corrosionis in ferro constructionis ACSR dari potest.
(2) Aluminium Alloy Conductor Cable adhibentur in vicem unius iacuit ACSR conductores ad minuendam potestatem damnum in distributione et lineae transmissionis supra caput, cum reponat aluminium conductorem ferro auctum, AAAC 5-8% of constructionis sumptus servare potest.
(3) AAAC superiores vires, sed inferiores conductivity habere dicitur quam purum aluminium.Levius esse, conductores stannum interdum adhiberi possunt pro ACSR conventionales substituere.

commoda

Commodum habet magnae transmissionis quantitatem, bonam sag perficiendi, humilem iacturam, corrosionem resistentiae, constructionis simplicis, etc.

Construction

AAAC est concentrici-laici, similis in constructione et specie cum 1350 gradu aluminii conductores.Elevatae sunt ad necessitatem conductoris oeconomici ad applicationes supra caput altiores vires requirentes quam conductores 1350 gradus aluminii, sed sine nucleo ferreo.

BS EN 50183 AAAC Aluminium Alloy Conductor cable (2)

stipare

Partus longitudinum determinantur ex consideratione talium factorum sicut dimensiones orum corporis, orum pondera, palmi longitudinis, instrumenti tractandi vel requisitio emptoris.

stipare Materials

Lignea orum, steel-wood orum, chalybe, orum.

Specifications

-BS 3242 Standard Aluminium Alloy Conductors
-BS EN 50183 Latin Aluminium Alloy Conductor Cable.

BS EN 50183 Standard AAAC Conductor Size Chart Physic and Mechanical Performance Parameters

Sectio Area	Ratione Sectio Area	Fila Stranding		Nominal Diameter	Nominal Pondus	Rated Fortitudo	Max.DC Resistentia ad 20℃	Current Capacitas baiulans
Sectio Area	Ratione Sectio Area	Nec.	Diae.	Nominal Diameter	Nominal Pondus	Rated Fortitudo	Max.DC Resistentia ad 20℃	Current Capacitas baiulans
-	mm²	-	mm	mm	kg/km	kN	Ω/km	A
Box	18.8	7	1.85	5.55	51.4	5.55	1.7480	93
Acacia	23.8	7	2.08	6.24	64.9	7.02	1.3828	110
Amygdalum	30.1	7	2.34	7.02	82.2	8.88	1.0926	128
Cedrus	35.5	7	2.54	7.62	96.8	10.46	0.9273	132
Deodar	42.2	7	2.77	8.31	115.2	12.44	0.777	148
Abies	47.8	7	2.95	8.85	130.6	14.11	0.6875	161
corylus	59.9	7	3.30	9.90	163.4	17.66	0.5494	184
Pinea	71.6	7	3.61	10.8	195.6	21.14	0.4591	204
Ilex	84.1	7	3.91	11.7	229.5	24.79	0.3913	222
Salices	89.7	7	4.04	12.1	245.0	26.47	0.3665	233
quercus	118.9	7	4.65	14.0	324.5	35.07	0.2726	272
Morus	150.9	19	3.18	15.9	414.3	44.52	0.2192	319
Cineres	180.7	19	3.48	17.4	496.1	53.31	0.1830	354
Elm	211.0	19	3.76	18.8	579.2	62.24	0.1568	385
Populus	239.4	37	2.87	20.1	659.4	70.61	0.1387	414
Sycamore	303.2	37	3.23	22.6	835.2	89.40	0.1095	487
Upas	362.1	37	3.53	24.7	977.5	106.82	0.0917	527
taxus	479.0	37	4.06	28.4	1319.6	141.31	0.093	629
Totara	498.1	37	4.14	29.0	1372.1	146.93	0.093	640
Rubus	586.9	61	3.50	31.5	1622.0	173.13	0.093	716
Sorbus	659.4	61	3.71	33.4	1822.5	194.53	0.093	760
Araucaria	821.1	61	4.14	37.3	2269.4	242.24	0.078	842
Rrdwood	996.2	61	4.56	41.0	2753.2	293.88	0.093	920