Product Development and R&D
At Loval, innovation drives our product development process. We collaborate closely with our clients to design, prototype, and refine heat exchangers and heating elements that meet precise specifications. We specialize in creating customized solutions that push the boundaries of efficiency and performance, ensuring each product is tailored to excel in its specific application.
Customized Solutions, built on Expertise
Customization is the cornerstone of our approach. By understanding your unique technical requirements, we develop optimized solutions that fit seamlessly into your systems. Whether it’s engineering a heat exchanger for a new heat pump model or crafting a specialized heating element for an industrial process, our technical expertise and cutting-edge design tools deliver solutions that meet your exact goals.
Advanced Testing for Superior Performance
To ensure the highest industry standards, we incorporate life cycle testing throughout the development process. Rigorous testing evaluates the durability, reliability, and long-term performance of each product, allowing us to fine-tune designs for real-world demands.
A Collaborative Approach
From concept to completion, we partner with our clients to transform ideas into reality. We support every stage, from initial prototype development to final product validation. Our goal is to help you innovate with tailored solutions that meet today’s needs and prepare your products for tomorrow’s challenges.
Vacuum Brazing: Expertise in Precision and Durability
At Loval, vacuum brazing has been a core technology in our manufacturing processes since 1982. This advanced technique enables us to deliver high-precision, durable products across various industries. Let’s take a closer look at what makes vacuum brazing so essential.
What is Vacuum Brazing?
Vacuum brazing is a specialized joining process conducted in a controlled, low or zero atmospheric pressure environment within a vacuum furnace. Unlike other brazing techniques, vacuum brazing uses a filler material to join parts without melting the base materials. The filler melts and moves via capillary action into the joints, creating a strong, seamless bond. This process is not only highly precise but also environmentally sustainable, as it reduces the need for harmful flux chemicals and minimizes material waste
No corrosion
This process enhances the corrosion resistance of metal components, ensuring long-lasting durability and reliability in harsh environments
Tight seals
Vacuum brazing excels at producing perfectly airtight joints, making it ideal for industries where preventing gas or liquid leaks is critical, such as aerospace, medical devices, and vacuum systems.
Efficiently
Vacuum brazing allows for the simultaneous joining of multiple parts, improving production efficiency and reducing costs without compromising on quality.
Clean process
The controlled vacuum environment ensures high precision and quality control, producing strong, flawless joints that are crucial in complex manufacturing and engineering applications.