The ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion and higher modulus of elasticity than the standard ACCC Conductor core.

The ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion and higher modulus of elasticity. Dozens of engineers have specified ACCC® ULS Conductor for projects, worldwide.

The ACCC® ULS Conductor can be ordered with Type 1350-O fully annealed aluminum or as an AZR version with Aluminum-Zirconium thermal resistant alloy for even higher overall conductor strength.

When it comes to improving the performance of the grid, CTC Global has already exceeded the expectations of its client and customers by providing them with the most reliable, efficient, and resilient conductors – ACCC® Conductor.  

The technical team at CTC Global has provided its customers with the most innovative, advanced, and cost-effective overhead conductor solutions available in the market today.  

Thus, CTC Global is proud of its technology, that can be the best choice for you to improve the grid performance - https://bit.ly/3G5Gb3F

The ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion and higher modulus of elasticity than the standard ACCC Conductor core.

The ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion and higher modulus of elasticity than the standard ACCC Conductor core.

Did you know that the First ACCC® ULS Conductor was deployed on a 1.4-kilometer lake crossing in Africa in 2013? This is because the ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion, and a higher modulus of elasticity than the standard ACCC® Conductor core. Get in touch with CTC Global experts to learn more about the technology - https://bit.ly/3gHCoyi

The ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion and higher modulus of elasticity than the standard ACCC Conductor core.

Dozens of engineers have specified ACCC® ULS Conductor for projects, worldwide, and the ULS version of the ACCC® Conductor has served clients well.

The ACCC® ULS Conductor can be ordered with Type 1350-O fully annealed aluminum or as an AZR version with Aluminum-Zirconium thermal resistant alloy for higher overall conductor strength.

The ACCC® ULS version has a higher modulus which means it stretches less under extreme ice load conditions and increased stiffness reduce sag and blow out during high wind conditions.

CTC Global has designed and fully tested a higher strength ACCC® Core rated at 375 ksi, ACCC® ULS that has a higher modulus which means it stretches less under extreme ice load conditions.

First deployed on a 1.4 kilometer lake crossing in Africa in 2013, the ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion and higher modulus of elasticity.

CTC Global performed a series of factory acceptance tests for customers using video and web technologies.

First deployed on a 1.4 kilometer lake crossing in Africa in 2013, The ACCC® ULS Conductor offers greater strength, a lower coefficient of thermal expansion and higher modulus of elasticity than the standard ACCC® Conductor core.

CTC Global and its worldwide stranding partners offer a higher-modulus version of the composite core known as ACCC® ULS Conductor that has a higher carbon fiber content , raising the tensile strength from 313 to 375 ksi.

Learn more about the conductor strengths >> https://bit.ly/2NRe6qB