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Our Services & Strength
| A. Raw Material | Copper ,BeCu, phosphor copper, Brass, Stainless steel, Aluminum, SGCC, SECC, steel, spring steel, Nickel-Silver... and all different kinds of metal; |
| B. SPEC | Roll material thickness is 0.05-10mm;sheet metal thickness is 0.3-20mm; |
| C. Surface treatment | Gold / Silver /Tin / Nickel / Zinc / Chromium / Copper-plating / Laser etching/Screen printing/Phosphating (can pass salt spray testing with 160 hours)/Black coating / Painting/ Power coating /Electrophoresis / Passivating /Deburring / Polishing / Brush according to ROHS standard; |
| D. Application | All different kinds of telecom products, loom, furniture, and so on ; |
| E. Quotation | Please provide the Formal drawings (normally, with DWG/STP/PDF file ),and make note with material/QTY/surface treatment and any other requirements, we will provide you the quotation sheet in 48-72 hours; |
| F. Prototype & Mould | We make the prototypes or moulds according to the drawings that confirmed by both of us and customers! The lead time is depends on the structure and qty of parts, Normally, lead time for prototypes is 3-15 days; lead time for mould is 10-25 days; |
| G. Production | We will provide samples according to the drawings to customers for approval. Then arrange the production and confirm the delivery date according to the Purchase Order; Normally , the lead time for production is 5-30 days ,the structure of parts is different , the lead time will be different . |
| H. Package | Plastic bags; Preserving Box; Reel/tape package; Plastic tray; Wood box; Export carton and any other customized package according to the customers' requests. |
"Design for Manufacturing"1. What is a Seismic Welding Base?
A Seismic Welding Base is a specially designed structural component used in construction to provide a secure and stable foundation for welded connections, especially in seismic (earthquake-prone) zones. It is used to anchor and reinforce steel structures to resist the dynamic forces and vibrations generated by earthquakes.
2. What is the purpose of a Seismic Welding Base?
The main purposes of a Seismic Welding Base include:
Strengthening connections: It ensures that welded joints in steel structures can withstand seismic forces without failing.
Providing stability: In areas with high seismic activity, these bases help secure steel components, preventing movement during an earthquake.
Distributing seismic forces: It helps distribute the seismic forces across the welded connections, reducing stress on individual parts of the structure.
3. Where is a Seismic Welding Base used?
Seismic Welding Bases are commonly used in:
Seismic-resistant buildings: In areas prone to earthquakes, such as California, Japan, or Chile, seismic welding bases are used to ensure that the steel framework of buildings remains intact during an earthquake.
Bridges and infrastructure: Bridges, overpasses, and other critical infrastructure often use seismic welding bases to maintain their integrity during seismic events.
Industrial structures: Factories, warehouses, and other large facilities may use seismic welding bases to ensure that their steel frameworks can resist seismic forces.
4. What materials are Seismic Welding Bases made from?
Seismic Welding Bases are typically made from high-strength steel alloys that are designed to withstand the stresses and vibrations from earthquakes. These materials are often treated for corrosion resistance (e.g., galvanization) to ensure long-term durability in harsh environments.
5. How do Seismic Welding Bases work?
Seismic Welding Bases work by providing a strong foundation for the welded connections between structural steel components. They are usually welded or bolted to the base of a structure and serve to:
Anchor the structure to the foundation.
Enhance the flexibility and resilience of the welded joints, allowing them to absorb and dissipate seismic forces.
Minimize movement: The base helps keep the steel elements in place during an earthquake, preventing them from shifting, buckling, or breaking apart.
6. What are the common issues with Seismic Welding Bases?
Common issues with Seismic Welding Bases include:
Improper installation: If the base is not correctly welded or installed, it may not provide adequate strength to resist seismic forces, putting the structure at risk.
Corrosion: In areas with high moisture or industrial exposure, corrosion can weaken the base over time, reducing its effectiveness in an earthquake.
Fatigue: Repeated seismic events can lead to material fatigue in the base, especially if it's not designed to handle frequent vibrations or forces.
7. How are Seismic Welding Bases installed?
The installation of a Seismic Welding Base involves:
Preparing the base foundation: The foundation or concrete slab where the base will be anchored needs to be prepared and reinforced.
Welding the base to the structure: The welding base is typically welded to the steel framework of the building or bridge.
Securing the connection: In some cases, the base may be bolted in addition to being welded to ensure a secure connection that can withstand seismic forces.
8. How can Seismic Welding Bases be maintained?
To maintain Seismic Welding Bases:
Inspect regularly for signs of wear or corrosion, especially in areas with high humidity or salt exposure.
Check welds and bolts for signs of stress, cracking, or loosening.
Ensure proper corrosion protection: If needed, apply additional protective coatings or treatments to the base to prevent rust or degradation.
9. What is the load capacity of a Seismic Welding Base?
The load capacity of a Seismic Welding Base depends on its design, size, and material strength. These components are typically engineered to handle extremely high loads, as they must be able to resist the forces from earthquakes, which can be far greater than typical structural loads. It's important to refer to the manufacturer's specifications for specific load-bearing capacities.
10. Why is a Seismic Welding Base important?
A Seismic Welding Base is crucial in earthquake-resistant design because it enhances the structural integrity of a building or infrastructure during seismic events. Without these bases, welded connections may fail under the intense shaking of an earthquake, leading to catastrophic damage. The seismic welding base ensures that these critical connections stay intact, maintaining the safety and stability of the structure.
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