Cable Stayed Bridge Components Fabrication > SCB parts, Cable Stayed Anchors

DSI 03 Cable Anchor Click image for more detail	DSI 19 Cable Stayed Bridge Anchor block Click image for more detail
DSI-Maumee-157series-ANCHOR Anchor Click image for more detail

Since 1993 AMECO USA has emerged as the premier Cable Stayed Bridge Components Fabrication Company in the World. Staying abreast of emerging Cable Stayed Bridge Contruction Technology, AMECO USA is positioned to offer Cable Stayed Bridge Component engineering and fabrication services on-time and within budget.

The cable stayed bridge components fabricated by AMECO USA include, but not limited:

• Guide Pipes of Stainless Steel
• Cable Stayed Bridge Anchors
• Ring Nuts
• Guide Pipes of Carbon Steel
• Transition Covers
• Pylon Saddles and Cradles
• Hanger Plates of Stainless Steel
• Cable Stayed Bridge Rails of Stainless Steel
• Seal and Grout Caps
• Bearing Plates
• Anti-Vandal Covers

When you think new cable stayed bridge construction and fabrication, think AMECO USA.

At Ameco USA Cable Stayed bridges have been compared to the masts of majestic sailing ships, and thanks to the components fabricated by AMECO USA, have been proclaimed as monuments to engineering technology. AMECO USA engineers each component as a unique components structure, engineered to address specific transportation requirements and respond to site, owner and community functionality.

AMECO USA is on the forefront of components construction technology and material science for bridges and has been an important part of advancing cable stayed bridge technology. Materials and technology incorporated by AMECO USA into cable stayed bridge component design has incrementally improved with more economical, sustainable and lower maintenance materials.

From Ameco USA's perspective, the cable stayed bridge may look like just a variant of the suspension bridge, but components fabrication and deployment makes this type of bridge very different. Cable stayed bridges differ from their suspension predecessors in that they don't require anchorages, nor do they need two towers. Instead, the cable stayed cables run from the roadway up to a single tower that alone bears the weight.

By design, the single tower of a cable stayed bridge is responsible for absorbing and dealing with compressional forces. The cables attach to the roadway in various ways. For example, in a radial components pattern, cables extend from several bridge tower points on the roadway to a single point at the tower, like numerous fabrication fishing lines attached to a single pole. In a parallel pattern, the bridge cable stayed cables attach to both the roadway and the tower at several separate points.