• Aluminum CNBM AL Core Wire Specification Material System 1
  • Aluminum CNBM AL Core Wire Specification Material System 2
  • Aluminum CNBM AL Core Wire Specification Material System 3
  • Aluminum CNBM AL Core Wire Specification Material System 4
  • Aluminum CNBM AL Core Wire Specification Material System 5
Aluminum CNBM AL Core Wire Specification Material

Aluminum CNBM AL Core Wire Specification Material

Ref Price:
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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
20 m.t.
Supply Capability:
1000 m.t./month

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Specification

Grade:
Al: 99.5%min
Surface Treatment:
Pure Element
Shape:
Wire
Temper:
Diameter:9mm+/-0.5mm or 12mm+/-0.5mm
Application:
Insulation Material
Width:
Coil height /width: 1090mm +/-10%
Outer Diameter:
1100MM+/-10%
Net Weight (kg):
Net wire weight per coil: 1500kg+/-10% or as customer request
Packaging:
Coil on the pallet+steel cage+dampproof film

Quick Details

Place of Origin:

China

Brand Name:

CNBM

Model Number:

Al

Type:

Bare

Application:

Heating

Conductor Material:

Al

Conductor Type:

Solid





Packaging & Delivery

Packaging Details:

Coil on the pallet+steel cage+damp proof film

Delivery Detail:

the shipment time is  about 10 days from the firm order or as request

Specifications

1.Good resistant (life) to oxidation at high temp. 
2.For high value electrical resistor 
3.Al heating strip

Our advantage:

High quality,short delivery time,small MOQ.


Characteristics:

Stable performance;  Antioxidation;  Corrosion resistance;  High temperature stability;  Excellent coil-forming ability;  Uniform and beautiful surface condition without spots.

Usage:

Resistance heating elements;Material in metallurgy;Household appliances;Mechanical manufacturing and other industries.

CNBM Al WIRE

Material SPECIFICANTION MATERIAL

Al

99%MIN

DIAMETER

9MM+/-0.5MM   OR 12MM+/-0.5MM

POWDER   WEIGHT:

190 G/M   +/-10 G/M for 9MM,3100 G/M +/-10 G/M    FOR 12MM

COIL   INTERNAL DIAMETER

570MM +/-10%

COIL   HEIGHT/ WIDTH

1090MM +/-10%

COIL   EXTERNAL DIAMETER

1100MM+/-10%

NET   WIRE WEIGHT PER COIL

1500KG+/-10% OR   AS CUSTOMER REQUESTE

Visit our wedsite: www.okorder.com or email to us for more information.

 

Q: This question asks about the energy consumption involved in the manufacturing process of an aluminum can.
<p>The energy required to process and produce an aluminum can varies based on factors like production scale and technology used. On average, it takes about 70-90 kilowatt-hours (kWh) of energy to produce a single aluminum can. This includes the energy for mining bauxite, refining it into alumina, smelting it into aluminum, and finally, manufacturing the can. The energy consumption is significantly lower compared to producing cans from other materials like steel or plastic, which makes aluminum cans more energy-efficient.</p>
Q: Explain the impact of adding magnesium to aluminum alloys on their characteristics.
<p>Adding magnesium to aluminum alloys significantly enhances their strength, especially in the form of heat-treatable alloys known as Al-Mg or 5000 series alloys. Magnesium increases the alloy's resistance to corrosion, improves its formability, and raises its mechanical strength. These alloys are often used in applications requiring high strength-to-weight ratios, such as in the aerospace and automotive industries. The addition of magnesium also improves the alloy's weldability and resistance to stress corrosion cracking. However, it's important to note that excessive magnesium can lead to reduced ductility and increased susceptibility to stress corrosion cracking, so the amount added must be carefully controlled.</p>
Q: What precautions should be taken when dealing with aluminum food containers to ensure safety?
<p>When handling aluminum food containers, it's important to ensure they are food-grade and free from any damage or sharp edges. Always wash them thoroughly before use, and avoid using abrasive cleaners that could scratch the surface. Do not store acidic or alkaline foods in aluminum containers for extended periods as this can cause leaching of aluminum into the food. Also, avoid heating aluminum containers in a microwave as it can cause warping and potential chemical reactions. Use caution when disposing of aluminum containers to recycle them properly and minimize environmental impact.</p>
Q: Describe the characteristics and properties of aluminum oxide.
<p>Aluminum oxide, also known as alumina, is a compound of aluminum and oxygen with the chemical formula Al2O3. It is a white solid that is insoluble in water but soluble in acid and base. It has a high melting point (over 2000掳C), high hardness, and is chemically inert. Aluminum oxide is also a good electrical insulator and has a high refractive index. It is used in various applications, including abrasives, refractory materials, and as a catalyst in chemical processes. Additionally, it is biocompatible and is used in medical implants and dental materials.</p>
Q: What is the chemical formula that represents aluminum?
<p>The chemical formula for aluminum is Al. It is a lightweight, silvery-white metal that is found in the Earth's crust and is the most abundant metal there. Aluminum is a member of the boron group of chemical elements and is represented by the symbol Al, which is derived from the Latin word 'alumen', meaning alum.</p>
Q: This question asks for various applications or purposes that can be served by using aluminum scrap material.
<p>Aluminum scrap can be repurposed in numerous ways due to its recyclability and durability. Some alternative uses include manufacturing new aluminum products, such as cans, foil, and automotive parts. It can also be used in construction for materials like window frames and roofing. Additionally, aluminum scrap is utilized in the production of everyday items like bicycles, furniture, and even in some types of cookware. Furthermore, it can be employed in the aerospace industry for aircraft parts and in the electronics industry for components. Recycling aluminum scrap not only conserves resources but also reduces energy consumption and environmental impact.</p>
Q: This question asks about the process of producing aluminum, a common metal known for its lightweight and corrosion resistance.
<p>Aluminum is made through a process called electrolysis. The primary source of aluminum is bauxite ore, which is first refined to produce aluminum oxide. This aluminum oxide is then dissolved in a molten cryolite bath and subjected to electrolysis. A large electric current is passed through the bath, causing the aluminum oxide to break down into aluminum metal and oxygen gas. The aluminum metal sinks to the bottom of the cell and is then tapped off and further processed. This process, known as the Hall-H茅roult process, is the predominant method for producing aluminum on an industrial scale.</p>
Q: This question asks about the impact of aluminum on the aging process in living organisms.
<p>Aluminum's effect on the aging process is a subject of ongoing research and debate. Some studies suggest that aluminum can accumulate in the body over time, potentially contributing to age-related diseases such as Alzheimer's. It is hypothesized that aluminum may interfere with cellular function, disrupt enzyme activity, and cause oxidative stress, which are all factors associated with aging. However, the exact mechanisms and the extent of aluminum's role in aging are not fully understood. It's important to note that the human body naturally has mechanisms to excrete aluminum, and the contribution of aluminum to aging is not conclusively proven. More research is needed to establish a clear link between aluminum exposure and the aging process.</p>
Q: Is aluminum capable of functioning as a catalyst in chemical reactions?
<p>Aluminum is not typically used as a catalyst in chemical reactions. Catalysts are substances that increase the rate of a chemical reaction without being consumed in the process. Aluminum, being a metal, does not have the properties necessary to act as a catalyst in most reactions. However, it can be used in certain reactions as a reducing agent or in the form of organoaluminum compounds, which may participate in catalytic processes, but these are not common applications.</p>
Q: This question asks to outline the various environmental effects that result from the production of aluminum.
<p>Aluminum production has several environmental impacts. It is energy-intensive, leading to high greenhouse gas emissions, primarily CO2, contributing to climate change. The process also generates toxic byproducts such as fluorides and cyanides, which can contaminate soil and water. Biodiversity is affected due to habitat destruction from mining activities. Additionally, aluminum production consumes significant amounts of water, which can strain local water resources. The industry also contributes to air pollution through the release of particulate matter and other pollutants. Overall, aluminum production poses a significant environmental challenge that requires sustainable practices and technologies to mitigate its impacts.</p>

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