ABLE and Laird: Precision Converted Materials for Diverse Industries
In today’s highly competitive manufacturing landscape, achieving reliability and precision requires advanced materials that can endure demanding environments. This is where ABLE and Laird Performance Materials come together to deliver exceptional results. Our partnership combines ABLE’s decades of expertise in converting with Laird’s innovative material technologies. Together, we provide high-performance solutions that enhance protection, conductivity, and efficiency across industries worldwide.
A Partnership Built on Innovation and Expertise
ABLE, as a reliable converting partner, incorporates high-performance materials from Laird into tailored solutions for the diverse industrial applications. ABLE ensures that Laird meets the exact design requirements of its materials because of its accurate cutting capabilities (slitting, laminating, die-cutting, and adhesive bonding). This partnership will incorporate the maximum functionality, consistency, and durability of each converted part, guaranteeing that clients can enjoy high product performance and reliability.
About Laird Performance Materials
Laird Performance Materials, part of DuPont, is a global leader in electromagnetic interference (EMI) shielding, thermal management, and advanced performance materials. Their products are designed to handle heat, preserve signal integrity, and shield sensitive electronics against electromagnetic and environmental stress. Laird serves other industries such as electronics, automotive, and telecommunications with its innovations, ever pushing the boundaries of performance and protection.
Precision Converting by ABLE
ABLE converts the materials provided by Laird into manufacturing-ready components through its high-tech converting systems. Our high precision processes allow it to be tight, cut clean, and maintain a constant quality. ABLE has been developing thermal interface product solutions, EMI shielding gaskets, and conductive foams since each converted product is optimized to maximize efficiency, reliability, and integration into production lines. With strict quality control at every stage, ABLE guarantees that every part meets the highest industry standards for performance and durability.
Thermal and EMI Management Solutions
ABLE and Laird collaborate in offering state-of-the-art thermal and EMI management solutions to the challenges of the high-performance electronic systems that are present today. The materials specialty products developed by Laird, including thermal gap fillers, conductive elastomers, and absorbers, are created by ABLE to the specific shapes and sizes of the components. These solutions minimize heat, eliminate signal interference, and guard against environmental stress of the devices-making sure that they can conduct their work even in extreme conditions. Our collaboration allows manufacturers to maintain consistent performance, extend product lifespan, and minimize costly downtime across critical applications.
Sustainability and Environmental Responsibility
In addition to performance, ABLE and Laird share a common commitment to sustainability and environmentally friendly production. Laird creates materials that are more efficient in terms of energy, less wasteful, and that have a longer lifespan of electronic appliances. ABLE uses the eco-friendly converting methods that reduce scraps, use of materials optimally, and encourage recycling where practicable. Our collaboration is meant to promote a more sustainable production landscape that is favorable to the companies as well as the environment.
Applications Across Industries
- Electronics: ABLE and Laird provide EMI shielding and thermal solutions that protect delicate circuits in smartphones, tablets, and wearable devices. These materials help maintain device performance and longevity even under high operational demands.
- Automotive: Our partnership provides high-technology gap fillers, conductive foams, and shielding materials that enhance the operation of EV batteries and electronic control systems. These solutions boost the heat management and provide the reliability of operation in the critical automotive parts.
- Telecommunications: The high-efficiency thermal and EMI materials developed by Laird are suitable to support 5G devices and communication infrastructure. The custom converting solutions of Able are very accurate, so these components are combined to work together to achieve higher signal integrity and thermal stability.
- Industrial Equipment: Specialized gaskets, absorbers, and insulating materials protect industrial systems from heat, vibration, and electromagnetic interference. These converted products improve equipment reliability and extend operational lifespan in demanding environments.
Commitment to Quality and Innovation
Both ABLE and Laird are highly committed to the provision of quality solutions supported by a formidable research and technical prowess. Incorporating the advanced material science developed by Laird and the accuracy converting technology created by ABLE, clients can enjoy the innovative solutions that can challenge the performance limit. Our collaboration highlights a shared commitment to assisting industries to be more efficient, safer, and sustainable with innovative materials.
The collaboration between ABLE and Laird Performance Materials represents a perfect synergy of expertise and technology. When combined, our strengths enable manufacturers to have access to world-class materials, which perform consistently and reliably in extreme conditions. There is high precision in converting products with ABLE, and the high level of innovation by Laird provides industries with high-quality products, quicker production, and better efficiency. We continue to build the future of manufacturing, one precise solution at a time.
Partner with ABLE today to discover how precision converting and advanced material solutions from Laird can elevate your products’ performance.
References:
https://able123converting.com/blog/laird-highlighting-world-class-emi-shielding-capabilities/
