PLADOS-TELMA
Scratch-resistant composite sinks, ideal for dynamic and design-forward environments.
Quality at the core of accessibility. Producing high-quality objects is part of a philosophy of living that aligns with human and environmental well-being. Every step of the value chain, from research to the use of innovative technologies and materials, reflects our commitment to reducing environmental impact and extending the lifecycle of our products. Durability is a non-negotiable aspect of quality, and Plados Telma creates long-lasting sinks with this principle in mind.
The Plados-Telma Group is dedicated to research, development, and innovation, as well as the production and formulation of quartz-based acrylic materials for its kitchen sinks. It also specializes in aluminum trihydrate-based acrylic formulations for the bathroom and furniture industries.
We have a state-of-the-art chemical-physical laboratory equipped with advanced research instruments and staffed by highly skilled technical-scientific personnel. Our experts conduct chemical and mechanical tests for internal purposes as well as for external public and private entities.
Our Delta Lab team, consisting of specialized technicians, mechanical and chemical engineers, innovators, and university researchers, has collaborated for years with the Chemistry Department of the University of Camerino.
Our Delta Lab team, consisting of specialized technicians, mechanical and chemical engineers, innovators, and university researchers, has collaborated for years with the Chemistry Department of the University of Camerino.
A dedicated chemical-physical testing area for applied product research. We conduct extensive composite material testing during product development to enhance technical features, prevent usage defects, and extend product lifespan. Our tests include:
Hardness measurement with "Durometer HRM"
Instant impact resistance using "Charpy Resilience"
Elastic modulus for tensile and flexural strength
Scratch resistance testing with "SCRATCH Test"
Surface abrasion resistance using the "TABER Test"
Our R&D laboratory follows ISO 9001 quality control standards.
Hardness measurement with "Durometer HRM"
Instant impact resistance using "Charpy Resilience"
Elastic modulus for tensile and flexural strength
Scratch resistance testing with "SCRATCH Test"
Surface abrasion resistance using the "TABER Test"
Our R&D laboratory follows ISO 9001 quality control standards.
ULTRAMETAL
Metallic particles combined with quartz and granite crystals create metallic tones and finishes on sink surfaces.
Cool-toned colors, satin finishes, and a metallic effect make Ultrametal sinks an excellent choice for modern settings, complementing stainless steel appliances commonly found in kitchens.
Ultrametal sinks are easy to clean, highly hygienic, and resistant to scratches, chemicals, heat, and high temperatures.
Metallic particles combined with quartz and granite crystals create metallic tones and finishes on sink surfaces.
Cool-toned colors, satin finishes, and a metallic effect make Ultrametal sinks an excellent choice for modern settings, complementing stainless steel appliances commonly found in kitchens.
Ultrametal sinks are easy to clean, highly hygienic, and resistant to scratches, chemicals, heat, and high temperatures.
NanoSTONE
An exclusive next-generation material, NANOSTONE consists of pure acrylic resin blended with high-tech mineral fillers, forming a 3D hydrogen bond network through a chemical process. This molecular structure strengthens the sink’s internal framework, making it more resistant to impacts and thermal shocks. The new composite material offers enhanced durability and a silky-smooth texture to the touch.
An exclusive next-generation material, NANOSTONE consists of pure acrylic resin blended with high-tech mineral fillers, forming a 3D hydrogen bond network through a chemical process. This molecular structure strengthens the sink’s internal framework, making it more resistant to impacts and thermal shocks. The new composite material offers enhanced durability and a silky-smooth texture to the touch.