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Stainless steel strips, also called ss strips, stainless steel belts, or stainless steel baby coils.
The stainless steel strips are a high-strength, corrosion-resistant, aesthetic, and practical metal material made of stainless steel as a base material, processed, rolled, and annealed. It is usually available in thicknesses from 0.3 mm to 3 mm and widths from 10 mm to 650 mm. Huaxiao stainless steel strip suppliers ship their products in strips or rolls. Since the edge shape of the rolled strips is more suitable for welding and forming than the cut strips, it is mostly used as a blank for welded pipes, metal parts, and daily necessities. It is widely used in electronic, electrical, mechanical, automotive, construction, medical, and food fields.
Precision Stainless Steel Strip
Cold-Rolled Stainless Steel Strip
Uniformity of Hardness
Width≤100mm ±0.03 mm
Width≤250mm ±0.05 mm
Width≤610mm ±0.1 mm
Min 3 IU
The Burr Height and Edge Quality
Thickness 0.02-0.1mm ≤6%
Thickness 0.1-0.5mm ≤5%
There are special requirements for deburring or round-edged strip steel
Thickness 0.4mm Burr height 0.03mm
Thickness 3.0mm Burr height 0.09mm
Stainless Steel Strips(Hot Rolled Stainless Steel Strips, Cold Rolled Stainless Steel Strips, Precision Stainless Steel Strips, Stainless Steel Narrow Coil)
ASTM A240, JIS G4304, G4305, GB/T 4237, GB/T 8165, etc
301 stainless steel strips, 304 stainless steel strips, 430 stainless steel strips, 420 stainless steel strips, 321 stainless steel strips, 310 stainless steel strips, 410s stainless strips, 316 stainless steel strips, etc
Finish of stainless steel strips:
0.02~3mm. as customers’ request
3.0mm-650mm, etc. as customers request
as customers request
Tisco steel, Posco steel, Ttss,Bao steel, etc
Cold Rolled Stainless Steel Strip: The cold rolling process is to continuously roll and stretch the hot rolled stainless steel master coil through a cold rolling mill to obtain the desired thin strip. Cold rolled stainless steel strip has high flatness and surface quality and is widely used in various industries, such as automotive, electronics, construction, etc.
Hot Rolled Stainless Steel Strip: The hot rolling process is made by heating the stainless steel master coil to a high temperature and then rolling and stretching it. Hot rolled stainless steel strip has high strength and plasticity and is suitable for applications that require higher strength and wear resistance, such as automotive parts, machinery and equipment, etc.
Precision Strip: Precision strip is a stainless steel strip manufactured through a special processing process that provides higher precision and better dimensional control. Precision strips are typically used in applications that require highly accurate dimensions, such as electronic components, medical devices, optical instruments, etc.
These stainless steel strips are categorized by production processes to meet the needs of different industries and applications, and stainless steel strip suppliers will provide the appropriate products according to customer requirements.
Stainless steel strip is known for its excellent corrosion resistance. It is characterized by the formation of a dense oxide film that effectively blocks the attack of oxygen, water and other corrosive media, providing a self-healing protective layer. Stainless steel strip has good resistance to oxidation and can resist oxygen attack. It also has acid and alkali resistance, able to resist the erosion of a variety of acidic and alkaline media. Especially in the marine environment and salt spray environment, stainless steel strip shows excellent resistance to salt corrosion. In addition, stainless steel strip is also resistant to stress corrosion and corrosion abrasion. Overall, the corrosion resistance of stainless steel strip makes it the material of choice for many industries, such as chemical, marine, food processing and medical equipment. As a stainless steel strip supplier, we are committed to providing high quality stainless steel strip to meet our customers’ needs for corrosion resistance and reliability.
Stainless steel strip has high strength as one of its distinguishing features. With proper alloy design and heat treatment process, stainless steel belts are able to provide excellent mechanical strength and durability.
The high strength of stainless steel strip makes it widely used in a variety of applications. It can withstand high tensile, compressive and bending forces for engineering and structural applications that require stable and reliable performance.
The high strength of stainless steel strip allows it to withstand greater loads at relatively low weights compared to ordinary steel strip. This makes stainless steel strip a favored material for designers and engineers, allowing for lighter weight designs and reduced material and transportation costs.
In addition, the high strength of stainless steel strip also gives it the ability to resist extrusion and deformation, allowing it to maintain a stable shape and size during the manufacturing process. This is critical for precision machining and applications that require a high degree of accuracy.
First, stainless steel strip has a high melting point, typically above 1200°C, which allows it to maintain a stable structure and properties in high temperature environments. This high melting point allows stainless steel strip to have excellent heat resistance in high temperature applications and to withstand the mechanical and chemical effects of high temperatures without softening, deformation or oxidation.
Second, stainless steel strip has a low thermal conductivity, which means it resists heat transfer relatively well. This property allows the surface temperature of stainless steel strip to rise relatively slowly in high temperature environments, thereby reducing the rate of heat transfer to the surrounding environment. This allows the stainless steel strip to provide better protection from heat loss and heat waste in high temperature conditions.
In addition, stainless steel strip also has a low coefficient of thermal expansion, meaning that the change in length when subjected to heat is relatively small. This allows the stainless steel strip to maintain a more stable size and shape during temperature changes, avoiding stress concentration and structural deformation due to thermal expansion.
Stainless steel strip has good plasticity, which means that it can undergo plastic deformation under force and constantly change its shape without fracture. This plasticity allows stainless steel strip to be easily processed into various shapes and sizes, adapting to different process requirements and application scenarios.
The plasticity of stainless steel strip comes from its special crystal structure and chemical composition. Alloying elements in stainless steel strip, such as chromium, nickel and molybdenum, improve its plasticity and machinability. In addition, stainless steel strip can be further enhanced in its plasticity by cold working (e.g. cold rolling, cold drawing) and other processes, making it more flexible and ductile.
Due to the plasticity of stainless steel strip, it can be formed by a variety of processing methods, such as stamping, bending, stretching, rolling, etc.. This makes stainless steel strip widely used in manufacturing for a variety of products and components, including electronic devices, automotive parts, kitchenware, architectural decoration, aerospace devices, etc.
Stainless steel strip has good recyclability, which means it can be recycled through the recovery and reprocessing process to produce new stainless steel products, reducing resource consumption and environmental impact.
The recyclability of stainless steel strip stems from the fact that its main components are renewable metal materials, such as iron, chromium and nickel. These metals can be effectively separated and extracted during the recycling process and reprocessed to maintain their original physical and chemical properties. The recycled stainless steel strip can be used to manufacture new stainless steel products, such as pipes, plates, wires, etc., after proper treatment and smelting.
The recyclability of stainless steel strip not only saves raw material resources, but also reduces energy consumption and carbon emissions. Compared to extracting the metal from the raw ore, recycling stainless steel strip requires much less energy and carbon emissions. In addition, the recycling process of stainless steel reduces waste generation and reduces the negative impact on the natural environment.
In the construction field, stainless steel strip is widely used in building structures, decorative materials and interior and exterior decoration. It can be used to make door and window frames, handrails, balustrades, stairs, columns and roofs, etc. The corrosion resistance of stainless steel strip enables it to withstand harsh climatic conditions and environmental corrosion, while its elegant appearance adds a modern and sophisticated touch to buildings. In the building materials industry, stainless steel strips are commonly used to make kitchen appliances, bathroom fixtures, sinks, cabinet fittings and more. Its antimicrobial properties and ease of cleaning make it ideal for places with high sanitary requirements. Whether it is a large construction project or a personal home improvement, Huaxiao stainless steel strip supplier can provide quality stainless steel strip products and professional services to help customers achieve their architectural and decorative goals.
Stainless steel strip plays an important role in automotive engine components, chassis and body structure. It can be used to manufacture air intake pipes, exhaust pipes, cylinder heads, cylinder liners, fuel system components, brake system parts, etc. Stainless steel strip has the characteristics of high temperature resistance, corrosion resistance, wear resistance and high strength, which can ensure the reliable operation of automobiles in harsh environments. In addition, stainless steel strip also plays an important role in automotive decoration and exterior design. It is widely used in body trim strips, door handles, roof racks, body surrounds and other components. As a professional stainless steel strip supplier, we understand the automotive industry's requirements for product quality and reliability. Our stainless steel strip products meet international standards and are guaranteed by strict quality control to meet the stringent requirements of automotive manufacturers.
The corrosion resistance of stainless steel belts makes them ideal for the chemical and petroleum industries. In acid and alkali, salt solutions and high temperature environments, stainless steel strip is able to resist corrosion and oxidation, maintaining its stability and reliability. It is widely used in the manufacture of chemical vessels, storage tanks, pipelines, valves, heat exchangers and other equipment to ensure the safe and efficient operation of chemical and petroleum production processes. In addition, stainless steel strip has excellent pressure resistance and strength to withstand the high pressure, high temperature and high intensity working environment in the chemical and petroleum industry. It is used to manufacture critical components such as pipe supports, sealing gaskets, spring plates, and connectors to ensure the tightness and stability of the system. As a reliable stainless steel strip supplier, we will provide you with reliable products and excellent services to meet your needs and support your business success.
One of the main applications of stainless steel belts in the food processing industry is the manufacture of food containers and equipment. Its excellent corrosion resistance and sanitary properties make it ideal for storing, mixing, blending and conveying food products. The smooth surface and seamless welds of stainless steel belts make them easy to clean and sanitize, ensuring food safety and quality. In addition, stainless steel belts are commonly used in conveyor belts and conveying systems for food processing equipment. Its high strength and abrasion resistance enable it to withstand high loads and frequent use, ensuring smooth transportation of food during the production process. Huaxiao stainless steel strip suppliers offer a wide range of sizes and thickness options to suit the needs of different food processing equipment.
One of the many applications for stainless steel belts in the medical device industry is the manufacture of surgical instruments. The high strength, corrosion resistance and good machinability of stainless steel strip make it ideal for surgical instrument manufacturing. Stainless steel belts are used in the manufacture of surgical blades, forceps, scissors and other instruments to ensure their durability and hygienic safety. In addition, stainless steel strip also plays an important role in the manufacture of medical devices. It is used in the manufacture of devices such as medical syringes, catheters, and stents, as well as medical devices such as artificial joints and implants. The high purity, antimicrobial properties and biocompatibility of stainless steel strip make it the material of choice in the medical field, ensuring the quality and safety of medical devices. As a trusted supplier of stainless steel belts, we are committed to providing quality products and services to the medical device industry.
When choosing a stainless steel strips, several factors need to be considered, such as the use environment, stress, temperature, corrosion, etc. According to different needs and conditions, you can choose stainless steel strips with different properties and materials, such as 316 stainless steel with good corrosion resistance, 17-4PH stainless steel with excellent mechanical properties, etc.
Stainless steel strip processing is difficult mainly because of the high hardness and toughness of stainless steel materials, easy to produce rebound, thermal deformation and other problems. Processing process optimization measures can be used, such as the use of cutting fluid for cutting, the use of appropriate tool materials, tool geometry parameters and cutting parameters.
The service life of stainless steel strip is related to its material, processing quality, use environment and other factors. In order to improve the service life of stainless steel narrow strip, you need to choose high-quality materials, processing to ensure the quality of processing, to avoid surface scratches, cracks and other problems, while avoiding stress concentrations in the use process, to avoid long periods of time in high temperature, humidity, corrosion and other harsh environments.
Stainless steel strips are prone to stress during processing, which is due to the high hardness and toughness of the stainless steel material, and may be subject to large deformations and displacements during processing. If these stresses are not solved in time, it will lead to deformation and cracks in the use of stainless steel strips, affecting its service life and performance.
The following are some ways to address the processing stresses in stainless steel strips:
Appropriate Processing Processes: Reasonable processing speed, appropriate cooling methods, etc. This can reduce the heat and displacement generated during processing and reduce the generation of stress.
Appropriate Tools: High-speed steel tools or carbide tools can ensure that the cutting force and friction during processing are properly controlled to reduce the generation of stress.
Proper Annealing: The annealing process needs to control the temperature and time, so that the stainless steel strips reach a properly softened state, thus reducing the generation of stress.
Proper Storage and Transportation: Proper storage and transportation can avoid impacts, vibrations, and other situations during transportation, resulting in stress and deformation of the stainless steel strips.
The following points can be referred to when selecting a reliable stainless steel strip supplier:
Product Quality: Choose a stainless steel strip supplier with a good reputation, you can check its quality control process and standards, product testing reports, etc. to understand its product quality.
Production Capacity: Choose a stainless steel belt supplier with a strong production capacity to ensure that it can meet your needs in a timely manner while having a flexible production capacity to customize production according to customer needs.
Competitive Price: Choose a stainless steel belt supplier with a reasonable price under the premise of product quality assurance.
Service Level: Choose a supplier that provides professional pre-sales consultation and after-sales service, can respond to customer needs in a timely manner, and provide high-quality service, while providing fast logistics and distribution services.
Reference Customer Evaluation: Check the supplier’s reputation and customer evaluation in the industry to understand its reputation and service quality.
To sum up, choosing a reliable stainless steel belt supplier requires comprehensive consideration of the above factors, and choosing a supplier with strength and credibility to ensure product quality and service quality, so as to meet customer needs.
Cold rolled stainless steel strips and hot rolled stainless steel strips are distinguished by the difference in processing methods. The main differences are as follows:
Production Process: Cold rolled stainless steel strip is processed and formed at room temperature, while hot rolled stainless steel strip is processed at high temperature.
Physical Properties: Due to the different production processes, cold rolled stainless steel strip is harder than hot rolled stainless steel strip, with higher tensile strength and better wear resistance.
Surface Finish: Cold rolled stainless steel strip has a smoother, flatter surface, and hot rolled stainless steel strip has a rougher surface.
Therefore, cold-rolled stainless steel strip and hot-rolled stainless steel strip need to be selected according to the specific situation when applying. Generally speaking, cold rolled stainless steel strip is more widely used in applications requiring high strength, wear resistance and surface finish, while hot rolled stainless steel strip is more suitable for use in high temperature and highly corrosive environments.
Steel sheet and steel strip are both flat-rolled steel products, but they differ in terms of their dimensions and intended applications.
Steel sheet refers to a flat-rolled metal sheet with a thickness greater than 0.2 millimeters. It is typically produced in large sheets or coils and is commonly used in applications that require a larger surface area, such as automotive body panels, roofing, and construction materials. Steel sheets are generally wider and longer compared to steel strips.
On the other hand, steel strip refers to a flat-rolled metal strip with a thickness less than 0.2 millimeters. It is usually produced in narrower widths and is characterized by its long length. Steel strips are commonly used in applications that require narrow dimensions and precise tolerances, such as in the manufacturing of electrical components, automotive parts, and metal stampings.
304 stainless steel strip and 316 stainless steel strip are two common stainless steel materials that have some differences in their chemical composition and properties.
Chemical Composition: The main chemical composition of 304 stainless steel strips includes 18% chromium and 8% nickel, which also contains a small amount of carbon, manganese, and other elements. While 316 stainless steel strip contains 2-3% molybdenum in addition to 18% chromium and 8% nickel. The addition of molybdenum improves the corrosion resistance of 316 stainless steel strips, especially in high-temperature and corrosive environments.
Corrosion Resistance: 316 stainless steel strip has better corrosion resistance than 304 stainless steel strip, especially for saltwater, acidic and alkaline solutions. This makes 316 stainless steel strips widely used in marine environments, the chemical industry, and food processing.
Resistance to Chloride Corrosion: 316 stainless steel strip exhibits better corrosion resistance in environments where chloride ions are present. It has a higher resistance to chloride corrosion and stress corrosion cracking.
Magnetism: 304 stainless steel strip is a non-magnetic material, while 316 stainless steel strip generates some magnetism during cold working, but is still a nearly non-magnetic material.
316 stainless steel strip and 301 stainless steel strip are two common stainless steel materials that have some differences in their chemical composition and properties.
Chemical Composition: The main chemical composition of 316 stainless steel belt includes 18% chromium, 8% nickel and 2-3% molybdenum, and also contains a small amount of carbon, manganese and other elements. While 301 stainless steel strip mainly consists of 17% chromium and 7% nickel, a small amount of carbon and manganese is also one of its components.
Corrosion Resistance: 316 stainless steel strip has excellent corrosion resistance, especially in corrosive environments and under high temperature conditions. It has a high resistance to corrosion by acid, alkaline and chloride ions. While 301 stainless steel strip also shows good corrosion resistance in general environments, 316 stainless steel strip is more suitable for harsher corrosive environments in comparison.
Strength and Hardness: 301 stainless steel strip has high strength and hardness, and can be bent and formed by cold working and other processing operations. While 316 stainless steel belt is relatively soft, strength and hardness is lower than 301 stainless steel belt, but has good plasticity and machinability.
Magnetism: 301 stainless steel strip is a non-magnetic material, with a low magnetic permeability. And 316 stainless steel strip in the cold processing process will produce some magnetic properties, but still belong to nearly non-magnetic materials.
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