• Best Price Used Layher Scaffolding,Scaffolding Parts,Scaffolding Pipe Parts System 1
Best Price Used Layher Scaffolding,Scaffolding Parts,Scaffolding Pipe Parts

Best Price Used Layher Scaffolding,Scaffolding Parts,Scaffolding Pipe Parts

Ref Price:
get latest price
Loading Port:
China Main Port
Payment Terms:
TT OR LC
Min Order Qty:
-
Supply Capability:
-

Add to My Favorites

Follow us:


OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

Quick Details

Minimum Order Quantity:
40bags
Material:
Q195-Q235etc
Model Number:
48-48.3mm
Surface Treatment:
Hot Dip Galvanized
FOB Price:
USD 0.88-2.7 Per Piece
Delivery Time:
Within 30days
Packing Details:
Packed in woven bags or pallet. 25pieces one bag.

Packaging & Delivery

Packaging Detail:Packed in woven bags or pallet. 25pieces one bag.
Delivery Detail:Within 30days after receiving your advance payment or L/C

Specifications

1.Material: Q195, Q235, etc
2.Advantage: easy combination, safety, stable
3.Surface: Pre galvanized

Specifications of the Product

1)size: 48.3mm
2) Min.Slip Load:10.5Mpa
3) Distortion Load:18KN
4) Weight: 0.5--1.5kg
5) superficial treatment: hot dip galvanized; galvanized

6) Material:Q235,Q195etc

7) Size for tube:45mm 47.5mm 48.3mm 50mm

8) Production technology: Drop forged

9) Surface treatment: Dipping paint, Zinc plated, Galvanized.

10) Color: Red, Self color, Gold color, Silver color or as per customized.

11) Application: Connect tow scaffolding pipe for arbitrary angle( Swivel)

12) Quality: Excellent Anti-Broken/ Anti-Slipping/Anti-Resisting/ Anti-Rusting/Easily Installing

13) Standard:EN74/BS1139 swivel coupler


Q:How is the load capacity of a steel prop determined?
The load capacity of a steel prop depends on several factors that consider the properties of the material and the design specifications. Firstly, the load capacity is affected by the type and grade of steel utilized in the prop. Steel props are commonly manufactured using high-strength, low-alloy steels that can withstand heavy loads. The properties of the steel, such as its yield strength, ultimate tensile strength, and elongation, play a significant role in determining the load capacity. Additionally, the load capacity is determined by the design specifications of the prop, including its dimensions, shape, and reinforcement. The length, diameter, and wall thickness of the prop impact its ability to resist bending and compression, which directly affects the load-bearing capacity. Moreover, features like internal ribs or flanges can improve the strength and stability of the prop, thus increasing its load capacity. Furthermore, the load capacity is influenced by the distribution of the load and the method of support. Steel props are commonly employed in construction to support vertical loads, such as beams or slabs. The load capacity is calculated based on the maximum load that the prop can endure while maintaining stability and structural integrity. To determine the load capacity, engineers conduct various tests, such as compression tests, bending tests, or load deflection tests. These tests measure the performance of the steel prop under different load conditions and provide valuable data for determining the safe working load and ultimate load capacity. In conclusion, accurately determining the load capacity of a steel prop is crucial to ensure the safety and stability of the supported structure. This is achieved by considering the material properties, design specifications, and conducting performance tests.
Q:Can steel props be used in underground construction?
Steel props, also known as steel shores or steel acrow props, have the capability to be utilized for underground construction. These adjustable steel tubes serve the purpose of supporting vertical loads in construction projects. They are commonly employed for providing support to formwork, scaffolding, and temporary structures in both above-ground and below-ground construction. In the domain of underground construction, steel props can prove to be particularly advantageous in aiding the excavation process. They are typically employed to offer temporary support to tunnels, underground chambers, and other areas that have been excavated. By strategically placing steel props, they can effectively distribute the load and prevent instability or collapse during the excavation process. The preference for steel props in underground construction is primarily due to their strength, adjustability, and durability. They possess the ability to withstand heavy loads and can be easily adjusted to the desired height, which makes them versatile for various underground construction projects. Moreover, steel props exhibit resistance to corrosion, which is of utmost importance in underground environments where there is increased moisture and exposure to other corrosive elements. In conclusion, it is indeed feasible to utilize steel props in underground construction. They play a vital role in providing essential support and stability during the excavation process and are highly regarded for their strength, adjustability, and durability.
Q:What is the structure of steel support anti - suspended membrane?
Anti hanging membrane is a new kind of membrane structure, which is mainly aimed at the construction of sewage tank
Q:Are steel props resistant to fire?
Steel props are highly resistant to fire. Steel is a non-combustible material, which means that it does not burn or contribute to the spread of flames. It has a high melting point, making it more resistant to heat and fire damage compared to other construction materials. Steel props are often used in construction projects to support structures during the building process, and their fire-resistant properties provide an added level of safety. In the event of a fire, steel props will maintain their structural integrity and continue to provide support. However, it is important to note that the surrounding materials, such as wood or concrete, may still be susceptible to fire damage and should be adequately protected.
Q:How do steel props contribute to the overall cost-effectiveness of a project?
Steel props contribute to the overall cost-effectiveness of a project in several ways. Firstly, steel props are a cost-effective solution for supporting and stabilizing structures during construction. They are versatile and can be easily adjusted to different heights, allowing for efficient use of materials and reducing the need for custom-made supports. Additionally, steel props are durable and have a long lifespan, which means they can be reused multiple times, saving costs on purchasing new supports for each project. This reusability also reduces waste generation, contributing to sustainable construction practices. Furthermore, steel props are lightweight and easy to transport and handle, reducing labor and transportation costs. Their simple and quick installation process saves time and allows for faster construction progress, leading to overall cost savings on labor and project duration. Moreover, steel props provide a safe working environment by ensuring structural stability during construction. By preventing collapses or accidents, they reduce the risk of costly delays, injuries, and damage to the project, thus saving additional expenses. Lastly, steel props can be easily rented or leased from construction equipment suppliers, eliminating the need for large capital investments in purchasing the supports. This flexibility in procurement options allows project managers to allocate their budget more efficiently and invest in other areas of the project. In conclusion, steel props contribute to the overall cost-effectiveness of a project by offering a versatile, durable, and reusable solution for structure support. Their lightweight nature, ease of installation, and safety features further enhance their cost-saving benefits. By considering these factors, project managers can make informed decisions and maximize cost-effectiveness in construction projects.
Q:Can steel props be used for supporting temporary screen walls and partitions?
Yes, steel props can be used for supporting temporary screen walls and partitions. Steel props, also known as adjustable steel props or acrow props, are commonly used in construction and temporary structures to provide support and stability. They are designed to be adjustable in height, making them suitable for different applications and varying load requirements. When it comes to supporting temporary screen walls and partitions, steel props can be an ideal choice due to their strength and stability. They can be easily installed and adjusted to the desired height, providing a secure and reliable support system for the screens and partitions. Furthermore, steel props are typically made from high-quality steel, which gives them excellent load-bearing capacity. This means that they can handle the weight of the screens and partitions without any risk of collapsing or sagging. The adjustable feature of steel props also allows for fine-tuning the height, ensuring a perfect fit and optimal support for the temporary walls and partitions. In summary, steel props are a suitable choice for supporting temporary screen walls and partitions. Their strength, stability, and adjustability make them an effective support system that can provide the necessary stability and security for such structures.
Q:Can steel props be used for temporary support during pipe installation?
Yes, steel props can be used for temporary support during pipe installation. Steel props are adjustable and sturdy, making them suitable for providing temporary support to pipes during installation. They can be easily adjusted to the required height and provide stability and strength to the pipes, ensuring they are held in place securely during the installation process. Furthermore, steel props have a high load-bearing capacity, making them capable of supporting the weight of the pipes and any additional equipment or materials involved in the installation. Overall, steel props are a reliable and effective solution for temporary support during pipe installation.
Q:Are steel props suitable for supporting temporary seating arrangements?
Yes, steel props are suitable for supporting temporary seating arrangements. Steel props are strong, durable, and adjustable, making them an ideal choice for providing stable support for temporary seating structures. Additionally, steel props can be easily installed and removed, making them convenient for temporary seating arrangements that may need to be set up and taken down quickly.
Q:Are steel props adjustable for uneven ground conditions?
Yes, steel props are adjustable for uneven ground conditions. They are designed with telescopic sections that can be extended or retracted to adapt to varying heights and uneven surfaces, providing stability and support.
Q:How do you calculate the number of steel props required for a specific task?
To calculate the number of steel props required for a specific task, you need to consider several factors such as the weight and size of the load to be supported, the distance between the props, and the strength and capacity of the individual props. 1. Determine the weight and size of the load: The first step is to determine the weight and size of the load that needs to be supported. This will help you understand the load-bearing capacity required for the steel props. 2. Determine the spacing between the props: The next step is to determine the spacing between the props. This depends on the size and weight distribution of the load. Generally, the spacing should be such that it provides adequate support and stability to the load. 3. Check the load capacity of the steel props: Each steel prop has a load capacity, which is usually mentioned by the manufacturer. Check the load capacity of the steel props you have or plan to purchase. This will help you determine the maximum weight each prop can bear. 4. Calculate the load-bearing capacity required: Divide the total weight of the load by the load capacity of a single prop. This will give you an estimate of the number of props required to support the load. 5. Consider safety factors: It is important to factor in safety margins when calculating the number of steel props required. It is recommended to add an extra prop or two to ensure additional support and to account for any uncertainties or variations in load distribution. 6. Consider the type and quality of props: Different types of steel props have different load-bearing capacities. Consider the type and quality of the props you are using to ensure they meet the necessary safety standards and regulations. 7. Consult with a structural engineer or expert: If you are unsure or if the task involves complex load calculations, it is advisable to consult with a structural engineer or an expert in the field. They can provide guidance and help you calculate the number of steel props required accurately. Remember, it is essential to prioritize safety and adhere to all relevant regulations and guidelines when calculating the number of steel props required for a specific task.

1. Manufacturer Overview

Location
Year Established
Annual Output Value
Main Markets
Company Certifications

2. Manufacturer Certificates

a) Certification Name  
Range  
Reference  
Validity Period  

3. Manufacturer Capability

a)Trade Capacity  
Nearest Port
Export Percentage
No.of Employees in Trade Department
Language Spoken:
b)Factory Information  
Factory Size:
No. of Production Lines
Contract Manufacturing
Product Price Range

Send your message to us

This is not what you are looking for? Post Buying Request

Similar products

New products

Hot products


Hot Searches

Related keywords