Warehouse Interlocking Flexible Waterproofing Roof Sheet

Warehouse Interlocking Flexible Waterproofing Roof Sheet System 1

Warehouse Interlocking Flexible Waterproofing Roof Sheet

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Loading Port:: Shanghai

Payment Terms:: TT or LC

Min Order Qty:: 25 m.t.

Supply Capability:: 2000 m.t./month

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Warehouse Interlocking Flexible Waterproofing Roof Sheet

Description

Material:SGCH/Grade550/Grade80/S550GD/G550/SGC570
Product Name: Warehouse Interlocking Flexible Waterproofing Roof Sheet
Key Word: Roof Sheet
Nominal Thickness: 0.13mm~0.8mm
Nominal Width: 600~1050mm
Spangle: Regular Spangle, Mini Spangle
Substrate steel: Galvanized/ Glavalume Steel Sheet
Coating: Z30-Z180/AZ30~AZ100
Steel Grade:SGCH/Grade550/Grade80/S550GD/G550/SGC570
Supply Ability: 28,000 MT per Year
Application: Industrial construction,Warehouse, Roof of Steel Structure House ,Wall

Specification

Standard	AISI, ASTM, BS, DIN, GB, JIS,etc.
Nominal Thickness	0.13mm~0.8mm
Nominal Width	600~1050mm
Length	Any Length by Required
Spangle	Regular Spangle, Mini Spangle
Substrate steel	Galvanized/ Glavalume Steel Sheet
Coating	Z30~Z180
	AZ30~AZ100
Steel Grade	SGCH/Grade550/Grade80/S550GD/G550/SGC570
Delivery Lead Time	15~30 Days after T/T Prepayment or L/C Date
Price Term	FOB,CIF,CFR,EX Works,FCA,DDU
Port of Loading	China Port
Payment	L/C at Sight
	T/T 30% in Advance,70% Balance after Received B/L Copy
	Cash

FAQ

Q:What can you do for us?

A: We always shorten delivery time for our buyer.

We always package steel products well.

We always fix steel product in container well to make it safe arrive at destination port.

We always provide best and professional forward service and after sales service.

Pictures

Warehouse Interlocking Flexible Waterproofing Roof Sheet

Q:Are steel sheets susceptible to rusting?: Steel sheets can indeed be prone to rusting. The composition of steel mainly consists of iron, a metal that has a natural tendency to react with oxygen when in contact with moisture, resulting in the formation of iron oxide, commonly referred to as rust. Consequently, when steel sheets come into contact with water or moisture, rusting can occur gradually. Nevertheless, there exist techniques to hinder or decelerate the rusting process, including the application of protective coatings or the utilization of stainless steel. The latter contains elements like chromium that offer supplementary protection against corrosion.

Q:What are the different types of steel sheet finishes for marine applications?: Marine applications commonly employ several different types of steel sheet finishes to enhance durability and corrosion resistance in the face of constant exposure to moisture, saltwater, and harsh weather conditions. 1. Hot-dip galvanized: Among the most frequently used finishes for marine applications is hot-dip galvanization. This process involves coating the steel sheet with a layer of zinc, effectively safeguarding against corrosion. The zinc layer acts as a sacrificial barrier, preventing rust formation in the underlying steel. 2. Stainless steel: Highly resistant to corrosion, stainless steel sheets find widespread use in marine applications. These sheets are composed of a steel, chromium, and nickel alloy, providing exceptional strength and corrosion resistance. Different grades of stainless steel sheets are available, with 316 stainless steel being the most commonly utilized in marine environments. 3. Powder coating: Powder coating is a favored finish for steel sheets in marine applications. The process involves electrostatically applying a layer of powdered polymer to the steel sheet, which is then cured under heat to form a robust and durable coating. Powder coating offers good corrosion resistance and can be tailored in terms of color and texture. 4. Epoxy coating: To ensure superior protection against corrosion in marine environments, steel sheets are frequently treated with epoxy coatings. These coatings boast chemical resistance and excellent adhesion to the steel surface. Epoxy coatings are also renowned for their high impact and abrasion resistance. 5. Organic coating: Organic coatings, such as polyurethane or acrylic coatings, are employed to shield steel sheets in marine applications. These coatings create a protective barrier against corrosion and are commonly utilized in offshore structures, ships, and other marine equipment. It is important to consider various factors, including specific environmental conditions, budget, and desired aesthetics, when selecting a steel sheet finish for marine applications. Consulting with a professional or referring to industry standards and recommendations can aid in determining the most suitable finish for a particular marine application.

Q:How do steel sheets perform in high-pressure environments?: Steel sheets perform well in high-pressure environments due to their high strength and resistance to deformation. They can withstand the forces exerted by high-pressure gases or liquids without significant distortion or failure.

Q:What is the difference between a matte and glossy steel sheet?: The main difference between a matte and glossy steel sheet lies in their surface finish. A matte steel sheet has a dull, non-reflective surface that diffuses light, resulting in a more muted appearance. On the other hand, a glossy steel sheet has a smooth, reflective surface that reflects light, giving it a shiny and polished look.

Q:Can the steel sheets be easily formed into cylinders or tubes?: Cylinders or tubes can be easily formed using steel sheets. This technique is commonly referred to as tube or pipe bending. Steel sheets, usually in the form of flat plates, can be bent through different methods like roll bending, rotary draw bending, and induction bending. These techniques exert force on the steel sheet, gradually transforming it into a cylindrical or tubular shape. The pliability and versatility of steel make it highly adaptable for molding into various forms, including cylinders and tubes.

Q:What are the different types of steel sheet alloys?: There exists a range of steel sheet alloys, each possessing distinct properties and applications. Among the most prevalent steel sheet alloys are: 1. Carbon Steel: This variety, composed primarily of iron and carbon, serves as a fundamental form of steel. Its notable strength and affordability render it extensively used in the construction, automotive, and manufacturing sectors. 2. Stainless Steel: Distinguished by its resistance to corrosion, stainless steel is produced by introducing chromium and other alloying elements to carbon steel. It finds common employment in environments where hygiene and durability hold significance, such as kitchen appliances, medical equipment, and architectural structures. 3. Galvanized Steel: To protect against corrosion, this type of steel is coated with a layer of zinc. Galvanized steel sheets find frequent application in outdoor settings, including roofing, fencing, and automotive components. 4. Alloy Steel: Alloy steel sheets are created by incorporating diverse alloying elements, like nickel, chromium, and molybdenum, into carbon steel. These alloys heighten the strength, hardness, and wear resistance of the steel, rendering it suitable for industries such as aerospace, automotive, and machinery. 5. Tool Steel: This steel variety is specifically engineered for the production of tools and dies. It distinguishes itself through high hardness, resistance to deformation, and the ability to retain sharp edges. Tool steel sheets are commonly employed in the manufacturing of cutting tools, drills, and molds. 6. Electrical Steel: This steel undergoes specialized processing to minimize magnetic losses and enhance electrical conductivity. Electrical steel sheets are utilized in the production of transformers, electric motors, and generators. These examples represent merely a fraction of the diverse steel sheet alloys accessible. Depending on the specific requirements of a project or application, engineers can opt for the appropriate alloy to achieve the desired properties and performance.

Q:What is the difference between a galvanized and painted steel sheet?: A galvanized steel sheet is coated with a layer of zinc, which provides protection against corrosion. On the other hand, a painted steel sheet is coated with a layer of paint, which provides aesthetic appeal and protection against weathering.

Q:Can steel sheets be used in corrosive environments?: Yes, steel sheets can be used in corrosive environments, but it is important to choose the right type of steel that is resistant to corrosion, such as stainless steel or galvanized steel. These types of steel have protective coatings or alloys that prevent or minimize corrosion, making them suitable for use in corrosive environments.

Q:What is the tensile strength of the steel sheets?: The tensile strength of steel sheets can vary depending on the specific grade and thickness of the steel. Generally, steel sheets have a tensile strength ranging from 370 to 1,500 megapascals (MPa). However, it is important to note that different types of steel sheets have different tensile strength values. For example, low carbon steel sheets typically have a tensile strength of around 370 to 550 MPa, while high-strength low alloy (HSLA) steel sheets can have tensile strengths ranging from 450 to 1,200 MPa. Additionally, the thickness of the steel sheets can also affect their tensile strength, with thicker sheets generally having higher tensile strength values. Therefore, it is crucial to consult the specifications provided by the manufacturer or supplier of the steel sheets to determine the precise tensile strength for a particular grade and thickness.

Q:What are the different types of steel sheet finishes for industrial applications?: There are several different types of steel sheet finishes commonly used in industrial applications. These finishes are applied to steel sheets to enhance their appearance, protect against corrosion, improve paint adhesion, and provide other functional benefits. Some of the most common types of steel sheet finishes include: 1. Hot Rolled: This finish is achieved by passing the steel through a high-temperature furnace, followed by rapid cooling. It results in a rough, scaled surface that is suitable for applications where appearance is not a primary concern. 2. Cold Rolled: In this finish, the steel is processed at room temperature, resulting in a smooth and clean surface. Cold-rolled steel sheets are often used in applications where a high-quality surface finish is required. 3. Galvanized: Galvanizing involves coating the steel sheet with a layer of zinc to protect against corrosion. This finish is widely used in industries such as construction, automotive, and manufacturing, where durability and resistance to rust are crucial. 4. Electro-galvanized: Similar to galvanizing, electro-galvanizing also involves coating the steel with zinc. However, in this process, an electric current is used to deposit the zinc onto the steel surface, resulting in a thinner and more controlled coating. 5. Stainless Steel: Stainless steel sheets are known for their high resistance to corrosion, making them ideal for applications in harsh environments. They can be finished with a variety of surface textures, including brushed, mirror, and patterned finishes. 6. Pickled and Oiled: This finish involves removing any oxide scale from the steel surface using an acid solution, followed by applying an oil coating to prevent rust formation. Pickled and oiled steel sheets are commonly used in automotive and construction industries. 7. Painted: Steel sheets can also be finished with a layer of paint, which not only enhances their appearance but also provides additional protection against corrosion. The type of paint used can vary depending on the application and desired finish. It's important to note that these are just a few examples of steel sheet finishes used in industrial applications. Different finishes are chosen based on the specific requirements of the application, such as aesthetics, corrosion resistance, durability, and cost-effectiveness.

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