1.Application The NFC33-209 Standard AAAC Conductor Aerial Cable is used for 600V or lower overhead service applications such as power transimission and distribution for street lighting,outdoor lighting,and temporary service for construction. The operating temperatures should not to exceed 75°C for polyethylene(PE) insulated conductors or 90°C for crosslinked polyethylene(XLPE)insulated conductors. 2.Standard : NFC33-209,BS7870,GB/T12527-2008 3.Rated voltage : 1kV,10kV or 11kV 4.Specification Concentric strand Aluminum/ AlloyAAAC wires insulated by PE or XLPE as phase conductor, bare or insulated AAC/AAAC/ACSR/AACSR messenger
1. The cross-linkage PE insulated and wrinkled aluminum wrapper waterproof PVC sheathed power cable. 2. The cross-linkage PE insulated and wrinkled aluminum wrapper waterproof PE sheathed power cable. Specific property for usage of 110KV~220KV XLPE high-voltage cable 1. Cable's conductor highest working temperature is allowed up to 90º C, and overload when meet an emergency is 130º C, When short circuit (in � 5 seconds) the highest temperature is 250º C 2. When installing or laying cable, the ambient temperature should be less than -20º C, and have to give a preheat to cable. 3. The minimum bending diameter(in follow the table): Note: In form, D0 is a real test value to cable's outer diameter. 4. Allowed biggest axial traction force to outer diameter when laying cable (not consider the radial lateral-pressure at bent set ion) T=K� Core NO. � Section (kg), in formula, the coefficient K value should be: The copper core get 7, the aluminum core get 4. 5. Allowed biggest lateral-press P, when cable is being bent The single core cable is required P� 500kg/m. P=T/R (T is indicated axial traction force; R is indicated radius of bent-wheel), Knowing from above formula, as the traction force is made up by length and weight of cable. So it lets P to applying requirement as above. Then the diameter of bent-wheel should be widened. http://www.alibaba.com/product-detail/240mm-300mm-400mm-500mm-630mm-800mm_60455062615.html?spm=a271v.8028081.0.0.ziQH7w
STANDARD:IEC60228 VOLTAGE:600/1000V CAPACITY:2000km/month Flexibility for easy handling Excellent moisture resistance Reduced overall diameter for tight duct applications without reducing insulation wall Available with EPR Insulation
STANDARD:IEC 60840 AS/NZS1429.2 VDE 0276-632 VOLTAGE:up to 110kV CAPACITY:2000km/month good electrical, mechanical and thermal characteristics excellent moisture, chemical and weather resistant low dielectric factor than PVC insulation and better dielectric constant constant performance at a long temperature range long service span LV:IEC60502-1 ,VDE 0276-603, ICEA S-95-658 ,AS/NZS 5000.1 MV:IEC60502-2 ,VDE 0276-620 ,AS/NZS1429.1 ,ICEA S93-639 ,ICEA S94-649 HV:IEC 60840 ,AS/NZS1429.2 ,VDE 0276-632
VOLTAGE:600V CAPACITY:2000km/month Single:one XLPE insulated aluminum conductor Duplex:one XLPE insulated phase conductor and one neutral conductor, duplex twisted assembly. Triplex:two XLPE insulated phase conductors and one neutral conductor, triplex twisted assembly. Quadruplex:three XLPE insulated phase conductors and one neutral conductor, quadruplex twisted assembly. Conductors:Class B compressed aluminum 1350-H19 meeting the requirements of ASTM B231. Insulation:The insulation is extruded lead-free Cross-linked Polyethylene (XLPE). The phase conductors are black, and the neutral conductor is black, identified by three extruded yellow stripes.
1.Conductor Plain, annealed electrolytic copper or Aluminum conductors, solid, circular stranded, or sectorial stranded, conforming to the applicable requirements of IEC 60228. 2. Insulation PVC or XLPE 3.Assembly Insulated conductors are laid up, filled where necessary with non-hygroscopic material and covered with an extruded thickness of thermoplastic material. 4. Armor A single strip of interlocked aluminum tape 5. Sheath PVC or PE Reinforced impact resistance Save setup space educe installation time and cost, improve efficiency Standard: BS 7870-3.11
Conductor:Aluminum AA-8000 alloy compacted conductor, Class B stranding, per ASTM B801. Soft-annealed uncoated copper compressed Class B stranding, or unilaycompressed per ASTM B8, solid wire per ASTM B3. Sizes:6 AWG-1000 kcmil On request, larger sizes available. Separator:A suitable opaque tape, as required. Insulation:Black Thermoset flame retardant cross-linked polyethylene (XLPE). Sunlight Resistant for Black color only For 600 V and 1000 V rated-40 °C and FT1
VOLTAGE:300/500V, 450/750V, 600/1000V CAPACITY:2000km/month Conductor:Class 1 solid or class 2 stranded copper conductor Separator:Mica/glass fire barrier tape Insulation:LSZH (Low Smoke Zero Halogen) or XLPE Protective Conductor:Tinned copper, full size CPC Bedding:LSZH (Low Smoke Zero Halogen) Screen:AL/PET (Aluminum/Polyester Tape) Armour:SWA (Steel Wire Armor), STA (Steel Tape Armor) Sheath:LSZH (Low Smoke Zero Halogen) or HOFR (Heat and Oil Resistant and Flame Retardant) to BS7655 or Heat resistant XLPE Sheath Color:Red, white, black
STANDARD:ASTM B549, B230 B502, B549 CAPACITY:2000ton/month The AW core, which consists of a thick layer of aluminum (approx. 10 percent of the nominal wire radius) over steel, gives ACSR/AW conductors the advantage of the light weight and good conductivity of aluminum with the high tensile strength and ruggedness of steel. It has the following main features: 1.good mechanical properties 2.improved electrical characteristics 3.excellent corrosion resistance 4.better Sag properties Specification Applicable Standards: ASTM, AS, BS, CSA, DIN, IEC, NFC, SS etc Aluminium Conductors, Aluminium Clad Steel Reinforced (ACSR/AS or ACSR/AW) are concentrically stranded conductors with one or more layers of hard drawn 1350-H19 aluminium wires on Aluminium Clad steel wire core. The core can be single wire or stranded depending on the size. The aluminum-clad steel core may consist of a single strand or a concentric stranded conductor of 7, 19, 37 or more wires.
STANDARD:ASTM B524, IEC 61089, etc CAPACITY:2000ton/month Used as bare overhead transmission cable, this aluminum product is manufactured by highly qualified professionals using best quality aluminum in compliance with international standards. This offered aluminum product is available in various specifications and can be modified on the specific needs of the customers. 1.improved strength to weight ratio 2.better mechanical properties 3.improved electrical characteristics 4.excellent resistance to corrosion Specification Applicable Standards: ASTM, IEC etc Aluminium Conductor Alloy Reinforced (ACAR) is formed by concentrically stranded wires of Aluminium 1350 on high strength Aluminium-Magnesium-Silicon(AlMgSi) alloy core. The number of wires of Aluminum1350 & AlMgSi alloy depends on the cable design. Although the alloy strands generally comprise the core of the conductor, in some constructions they are distributed in layers throughout the aluminum 1350-H19 strands.
STANDARD:ASTM B230, B231, B232, B398, B399, B400 VOLTAGE:5kV, 15kV TP (For Treed Areas), 15kV (For Non-Treed Areas), 25kV, 35kV, 46kV CAPACITY:5000km/week Covering prevents faults due to contact Proprietary, high density outer layer resists abrasion and electrical tracking High impulse strength allows for close spacing of phase conductors Installed the same as bare conductors, however, covering is effective in preventing direct shorts and instantaneo AAC (1350-H19), AAAC or ACSR conductors, concentrically stranded. Available with black or gray track resistant, high-density polyethylene (HD) or black track-resistant crosslinked polyethylene (XLP) covering. Covered conductors consist of stranded hard drawn aluminum conductors with either one, two or three extruded layers depending on the voltage rating. In a Covered Aerial MV System (formerly called Spacer Cable), spacers hold three MV phase conductors in close approximation. The spacers are suspended from a high-strength messenger wire. Covered Aerial MV (CAMV) cable itself is a single aluminum conductor protected by a layer of track-resistant polyethylene.
STANDARD:ASTM B230, B231, B232, B398, B399, B400 CAPACITY:5000km/week Triple extruded for clean interfaces Class 10,000 environment utilized for cable core material handling Flexibility for easy handling Excellent moisture resistance Deformation-resistant High dielectric strength Low dielectric loss Excellent resistance to water treeing Clean-stripping insulation shield without the use of a release agent Sunlight-resistant
VOLTAGE:Up to 36kV CAPACITY:2000km/month Conductor:copper, circular stranded compacted, longitudinal water-tight Conductor screening:extruded semi-conductive compound Insulation: XLPE Insulation screening:extruded semi-conductive compound Screen:copper tapes Separator:plastic foil Sheath:PE Fillers:polypropylene strings Binder Tape Bedding:polypropylene strings of polyester tape Armor:galvanized round steel Wires Serving: bituminous compound, hessian tapes, polypropylene strings with colored stripe
STANDARD:ICEA S-94-649,AEIC CS-8,Made in accordance to RUS VOLTAGE:15kV CAPACITY:2000km/month Operating Temperature Normal continuous operation 90°C for wet or dry locations (105°C optional) Overload 130°C Short circuit 250°C Rated Voltage 5, 8, 15, 25 and 35 kV. Insulation Level 100% (133% and 173% optional). Conductor Soft Copper or 1350-H19 aluminum, compact stranded. Conductor Shield Cross linked polyethylene semiconductor. Insulation Cross linked polyethylene XLPE.
1.Conductor Plain annealed copper or aluminum 2.Insulation General purpose PVC compound 3.Colour of cores Single core - red or black 2 cores - red and black 3 cores - red, yellow and blue 4 cores - red, yellow, blue and black 4. Formation 1) Single core 2) 2,3, or 4 cores - stranded together and the interstices may be filled with the sheathing compound or textile. A nonhygroscopic binder tape may be applied over the laid-up cores. 5.Bedding Black general purpose PVC compound 6.Armour Single core - Aluminum wire 2,3, or 4 cores - Galvanized steel wire 7.Sheath Black general purpose PVC compound
STANDARD:ASTM B500 CAPACITY:2000ton/month The AW core, which consists of a thick layer of aluminum (approx. 10% of the nominal wire/radius) over steel, gives ACSS/AW conductors the advantages of standard ACSS along with the light weight and good conductivity of aluminum and the high tensile strength and ruggedness of steel. ACSS/AW can operate continuously at high temperatures (250°C) without damage, allowing for a significant increase in conductor current-carrying capacity. The cross-sections above illustrate some common stranding. 1.Light weight 2.Good conductivity 3.High tensile strength
ACSS conductors are similar to conventional ACSR with some very important additional advantages. ACSS can operate continuously at high temperatures up to 250Ë?C without damage, allowing for a significant increase in conductor current-carrying capacity. ACSS sags less under emergency electrical loading than ACSR, it is self-damping, and its final sags are not affected by long-term creep of the aluminum. 1.improved conductivity 2.better self-damping property 3.very low sag at high temperature 4.high current carrying capacity 5.excellent immunity to vibration fatigue 6.long term creep of aluminum does not affect final sag
STANDARD:ASTM B711, DIN 48206, IEC 61089 etc CAPACITY:2000ton/month AACSR is suitable for overhead line for long span at medium voltage, high voltage and extra-high voltage, such as used in the area of mountain, hill, or the place where snow is heavy. The AACSR has a much higher strength and its usage is ideal on long spans or under very severe mechanical conditions. 1.offers optimal strength for line design. 2.improved strength to weight ratio 3.ideal for extra long span with heavy load 4.excellent resistance to corrosion. Specification Applicable Standards: ASTM, DIN, IEC etc AACSR is a concentrically stranded conductor composed of one or more layers of Aluminium-Magnesium-Silicon Alloy wire stranded around a high strength coated steel core. The core can be of either single wire or stranded multi wire. AACSR is available with steel core of Class A, B or C galvanizing or Aluminium clad (AW). Additional corrosion protection is available through the application of grease to the core or infusion of the complete cable with grease.
STANDARD:ASTM B399, BS 3242, BS EN50183, DIN 48201, IEC 61089, etc CAPACITY:2000ton/month AAAC aluminum alloy conductors are extensively used for overhead distribution and transmission lines adjacent to ocean coastlines where there can be a problem of corrosion in the steel of an ACSR construction due to the following features: 1.high strength to weight ratio 2.better sag characteristics 3.improved electrical properties 4.excellent resistance to corrosion 5.higher operating efficiency of the line Aluminum alloy conductors have a number of advantages over the use of the ACSR or all-aluminum conductors. 1.Lower power losses than for equivalent single-aluminum-layer ACSR conductors.(The inductive effect of the steel core in the ACSR is eliminated.) 2.Simpler fitting than those required for ACSR. 3.Excellent corrosion resistance in environments conductive to galvanic corrosion in ACSR. 4.Strength and sag approximately the same as for equivalent 6/1 and 26/7 ACSR conductors. 5.Outside diameters are the same for standard ACSR conductors, permitting interchangeability of fitting.
STANDARD:ASTM B231, CSA C 49,BS 215, DIN 48201, IEC 61089, etc CAPACITY:2000ton/month All Aluminum Conductors are widely used for its following features: Optimum economy is provided since the lighter weight means lower unit length coats, easier handling in installation and less-complex fittings. All-aluminum conductors have an inherent high corrosion resistance due to their homogeneous construction. AAC conductor has high current carrying capacity It is widely used for its excellent resistance to corrosion, thus ideal for use in coastal areaSuitable for low & medium voltage lines in urban are. Specification Applicable standards: ASTM/BS/CSA/DIN/IEC standards Concentric lay stranded Aluminium Conductor (AAC) is made up of one or more strands of hard drawn 1350 aluminum alloy. Bare all-aluminum Conductors (AAC) are concentric-lay-stranded, consisting of one or more layers of wire wrapped helically around a straight round central wire. Each successive layer has six wires more than the layer immediately beneath. Greater flexibility is provided by increasing the number strands for a specific cross-sectional area. The more commonly used strandings are 7, 19, 37, 61 and 91.
