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Hot Dip Galvanised Cable Stayed Bridge Cable Tower Bridge Multi Span

Name: Hot Dip Galvanised Cable Stayed Bridge Cable Tower Bridge Multi Span
Brand: EVERCROSS BRIDGE TECHNOLOGY (SHANGHAI) CO.,LTD.
SKU: COMPACT-200; COMPACT-100; CHINA 321 ; PB 100; LSB; GWD; DELTA; 450,etc
Price: 1,500.00 USD
Availability: InStock

Brand Name:	EVERCROSS
Model Number:	COMPACT-200; COMPACT-100; CHINA 321 ; PB 100; LSB; GWD; DELTA; 450,etc
MOQ:	negotiation
Price:	1000USD ~ 2000USD Per ton
Delivery Time:	negotiation
Payment Terms:	L/C, D/A, D/P, T/T, Western Union, MoneyGram

Detail Information

Product Description

Detail Information

Place of Origin:

China

Certification:

CNAS; COC; PVOC; SONCAP; CIDB;FORM E;FORM L; FORM M, etc

Product Name:

Cable-stayed Bridge

Material:

Steel

Spans:

Large Span

Type:

Steel Truss Bridge

Usage:

Permanent Bridge

Length / Width:

Customized

Packaging Details:

According to detailed order

Highlight:

Galvanised Cable Stayed Bridge

Multi Span Cable Stayed Bridge

Multi Span Cable Tower Bridge

Product Description

Hot Dip Galvanised Cable Stayed Bridge Cable Tower Bridge Multi Span

Product Overview

Prefabricated Cable Stayed Bridges with Hot-Dip Galvanized Surface Protection. A cable-stayed bridge, also known as diagonal bridge, is a structural system composed of a pressurized tower, strained cables, and a bent beam body where the main beam is directly pulled on the bridge tower with multiple cables.

Key Components

Three Main Parts:

Main Beam: Typically concrete, steel-concrete combination, or steel structure

Cable Tower: Primarily concrete structures, sometimes steel-concrete or steel

Stay Cable: Made of high-strength materials (high-strength steel wire or steel strand)

Span Layout Options

Twin Tower Three Span: Ideal for crossing larger rivers

Single Tower Double Span: Suitable for small/medium rivers and urban channels

Three-Tower Four Span and Multi-Tower Multi-Span: For specialized applications

Auxiliary Pier and Side Lead Span: Improves stiffness and construction safety

The load transfer path efficiently distributes weight from the main beam through cables to the tower and foundation, allowing for reduced beam dimensions and increased crossing capacity.

Cable Tower Design

The cable tower is the primary visual element and must balance aesthetics with structural efficiency. Various configurations include:

Single Column Type (simple structure)

A-Shape (high stiffness)

Inverted Y Type (reduces negative bending moment)

Stay Cable Arrangement

Cable Plane Positions:

Single Cable Plane (best torsional stiffness)

Vertical Double Cable Plane

Oblique Double Cable Plane (best wind resistance)

Cable Plane Shapes:

Radial (large vertical support component)

Harp (simplified tower connection)

Sector (combines advantages of both)

Structural Systems

Cable-stayed bridges can be classified by:

Tower/Beam/Pier Combination: Floating, Semi-floating, Tower Beam Consolidation, Rigid Structure

Main Beam Continuity: Continuous System, T-Structure System

Anchoring Method: Self-Anchoring, Ground Anchoring

Tower Height: Conventional, Low Tower Partial

Main Beam Characteristics

The main beam serves three primary functions:

Distributes loads to cables

Provides axial compression resistance

Resists transverse wind/seismic loads

Material Options by Span:

Prestressed Concrete (economic span <400m)

Steel-Concrete Composite (400-600m)

All Steel (>600m)

Hybrid (steel main span with concrete side spans)

Stay Cable Construction

Parallel Wire Cable with Cold Cast Anchor

Parallel Steel Cable with Clip Anchor

Vibration Damping Methods:

Pneumatic Control (surface modifications)

Damping Vibration Reduction (internal/external dampers)

Changing Cable Dynamics (coupling cables)

Construction Methods

Support Construction

Push Construction

Rotary Construction

Cantilever Construction (assembly/pouring)

Applications

Highway and Road Bridges

Railway Bridges

Pedestrian and Bicycle Bridges

Key Advantages

Compact beam size with large crossing capacity

Superior wind stability compared to suspension bridges

No need for centralized anchorage structures

Efficient cantilever construction capability

Excellent maintenance accessibility

High resilience to natural forces

Technical Specifications

Product Type	Cable-stayed bridge
Material	Steel
Spans	Large Span
Type	Steel Truss Bridge
Usage	Permanent Bridge
Length/Width	Customized

Evercross Steel Bridges Overview

Bridge Types	Bailey bridge, Modular bridge, Truss Bridge, Warren bridge, Arch bridge, Plate bridge, Beam bridge, Box girder bridge, Suspension bridge, Cable-stayed bridge, Floating bridge
Design Spans	10M to 300M Single span
Carriage Way	Single lane, Double lanes, Multilane, Walkway
Loading Capacity	AASHTO HL93.HS15-44, HS20-44, HS25-44, BS5400 HA+20HB, HA+30HB, AS5100 Truck-T44, IRC 70R Class A/B, NATO STANAG MLC80/MLC110, Truck-60T, Trailer-80/100Ton
Steel Grade	EN10025 S355JR S355J0/EN10219 S460J0/EN10113 S460N/BS4360 Grade 55C, AS/NZS3678/3679/1163/Grade 350, ASTM A572/A572M GR50/GR65, GB1591 GB355B/C/D/460C
Certificates	ISO9001, ISO14001, ISO45001, EN1090, CIDB, COC, PVOC, SONCAP
Welding	AWS D1.1/AWS D1.5, AS/NZS 1554 or equivalent
Bolts	ISO898, AS/NZS1252, BS3692 or equivalent
Galvanization Code	ISO1461, AS/NZS 4680, ASTM-A123, BS1706 or equivalent

Tags:

cable stayed pedestrian bridge

cable tower bridge

cable supported bridge

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Products Details

Home Products

Cable Stayed Bridge

Hot Dip Galvanised Cable Stayed Bridge Cable Tower Bridge Multi Span

All Category

Steel Bailey Bridge

Prefabricated Steel Truss Bridge

Modular Steel Bridge

Steel Footbridge

Steel Plate Girder Bridge

Steel Box Girder Bridge

Steel Arch Bridge

Composite Beam Bridge

Steel Cable Suspension Bridge

Cable Stayed Bridge

Floating Pontoon Bridge

Mechanized Bridge

Bridge Steel Structure

Hot Dip Galvanised Cable Stayed Bridge Cable Tower Bridge Multi Span

Brand Name:	EVERCROSS
Model Number:	COMPACT-200; COMPACT-100; CHINA 321 ; PB 100; LSB; GWD; DELTA; 450,etc
MOQ:	negotiation
Price:	1000USD ~ 2000USD Per ton
Packaging Details:	According to detailed order
Payment Terms:	L/C, D/A, D/P, T/T, Western Union, MoneyGram

Detail Information

Product Description

Detail Information

Place of Origin:

China

Brand Name:

EVERCROSS

Certification:

CNAS; COC; PVOC; SONCAP; CIDB;FORM E;FORM L; FORM M, etc

Model Number:

COMPACT-200; COMPACT-100; CHINA 321 ; PB 100; LSB; GWD; DELTA; 450,etc

Product Name:

Cable-stayed Bridge

Material:

Steel

Spans:

Large Span

Type:

Steel Truss Bridge

Usage:

Permanent Bridge

Length / Width:

Customized

Minimum Order Quantity:

negotiation

Price:

1000USD ~ 2000USD Per ton

Packaging Details:

According to detailed order

Delivery Time:

negotiation

Payment Terms:

L/C, D/A, D/P, T/T, Western Union, MoneyGram

Highlight:

Galvanised Cable Stayed Bridge

Multi Span Cable Stayed Bridge

Multi Span Cable Tower Bridge

Product Description

Hot Dip Galvanised Cable Stayed Bridge Cable Tower Bridge Multi Span

Product Overview

Key Components

Three Main Parts:

Main Beam: Typically concrete, steel-concrete combination, or steel structure

Cable Tower: Primarily concrete structures, sometimes steel-concrete or steel

Stay Cable: Made of high-strength materials (high-strength steel wire or steel strand)

Span Layout Options

Twin Tower Three Span: Ideal for crossing larger rivers

Single Tower Double Span: Suitable for small/medium rivers and urban channels

Three-Tower Four Span and Multi-Tower Multi-Span: For specialized applications

Auxiliary Pier and Side Lead Span: Improves stiffness and construction safety

The load transfer path efficiently distributes weight from the main beam through cables to the tower and foundation, allowing for reduced beam dimensions and increased crossing capacity.

Cable Tower Design

The cable tower is the primary visual element and must balance aesthetics with structural efficiency. Various configurations include:

Single Column Type (simple structure)

A-Shape (high stiffness)

Inverted Y Type (reduces negative bending moment)

Stay Cable Arrangement

Cable Plane Positions:

Single Cable Plane (best torsional stiffness)

Vertical Double Cable Plane

Oblique Double Cable Plane (best wind resistance)

Cable Plane Shapes:

Radial (large vertical support component)

Harp (simplified tower connection)

Sector (combines advantages of both)

Structural Systems

Cable-stayed bridges can be classified by:

Tower/Beam/Pier Combination: Floating, Semi-floating, Tower Beam Consolidation, Rigid Structure

Main Beam Continuity: Continuous System, T-Structure System

Anchoring Method: Self-Anchoring, Ground Anchoring

Tower Height: Conventional, Low Tower Partial

Main Beam Characteristics

The main beam serves three primary functions:

Distributes loads to cables

Provides axial compression resistance

Resists transverse wind/seismic loads

Material Options by Span:

Prestressed Concrete (economic span <400m)

Steel-Concrete Composite (400-600m)

All Steel (>600m)

Hybrid (steel main span with concrete side spans)

Stay Cable Construction

Parallel Wire Cable with Cold Cast Anchor

Parallel Steel Cable with Clip Anchor

Vibration Damping Methods:

Pneumatic Control (surface modifications)

Damping Vibration Reduction (internal/external dampers)

Changing Cable Dynamics (coupling cables)

Construction Methods

Support Construction

Push Construction

Rotary Construction

Cantilever Construction (assembly/pouring)

Applications

Highway and Road Bridges

Railway Bridges

Pedestrian and Bicycle Bridges

Key Advantages

Compact beam size with large crossing capacity

Superior wind stability compared to suspension bridges

No need for centralized anchorage structures

Efficient cantilever construction capability

Excellent maintenance accessibility

High resilience to natural forces

Technical Specifications

Product Type	Cable-stayed bridge
Material	Steel
Spans	Large Span
Type	Steel Truss Bridge
Usage	Permanent Bridge
Length/Width	Customized

Evercross Steel Bridges Overview

Bridge Types	Bailey bridge, Modular bridge, Truss Bridge, Warren bridge, Arch bridge, Plate bridge, Beam bridge, Box girder bridge, Suspension bridge, Cable-stayed bridge, Floating bridge
Design Spans	10M to 300M Single span
Carriage Way	Single lane, Double lanes, Multilane, Walkway
Loading Capacity	AASHTO HL93.HS15-44, HS20-44, HS25-44, BS5400 HA+20HB, HA+30HB, AS5100 Truck-T44, IRC 70R Class A/B, NATO STANAG MLC80/MLC110, Truck-60T, Trailer-80/100Ton
Steel Grade	EN10025 S355JR S355J0/EN10219 S460J0/EN10113 S460N/BS4360 Grade 55C, AS/NZS3678/3679/1163/Grade 350, ASTM A572/A572M GR50/GR65, GB1591 GB355B/C/D/460C
Certificates	ISO9001, ISO14001, ISO45001, EN1090, CIDB, COC, PVOC, SONCAP
Welding	AWS D1.1/AWS D1.5, AS/NZS 1554 or equivalent
Bolts	ISO898, AS/NZS1252, BS3692 or equivalent
Galvanization Code	ISO1461, AS/NZS 4680, ASTM-A123, BS1706 or equivalent

Tags: