TVP – Thermal Vacuum Projects is a company with more than 20 years of professional experience in Vacuum, High Vacuum,Ultra High Vacuum and Cryogenic technologies, offering customized solutions for aerospace, large scientific facilities, research centers, technology centers, universitiesand general industry.
If you are looking for customised vacuum solutions of superior quality, then you have come to the right place!
TVP – Thermal Vacuum Projects is part of DIECAROS Science & Technology Corp., group leader in space technologies and science applications.
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Physical Vapor Deposition (PVD) is an advanced vacuum coating technique used to apply thin layers of materials onto solid substrates. This process is carried out in specially designed vacuum chambers, where materials are evaporated and deposited onto the substrate surface to create precise and uniform coatings with specific properties.
Pulsed Laser Deposition (PLD) is another vacuum coating technique that uses a pulsed laser to evaporate and deposit materials onto solid substrates. This method is especially suitable for depositing ceramic materials and high-quality thin films with unique properties, such as superconductivity and ferromagnetism.
Vacuum chambers play a vital role in astrophysics by providing a contaminant-free environment for the operation of sensitive equipment and detectors. These chambers enable precise experiments under controlled conditions, facilitating research and discoveries in the field of astrophysics.
Integration into glove boxes is a specialized approach that allows vacuum coating processes to be carried out in controlled, contaminant-free environments such as clean rooms or gloves. This technique ensures the protection of sensitive materials and substrates during the coating process, guaranteeing the quality and integrity of the deposited coatings.
Hydrogen plays a key role in the aerospace industry as a fuel and propellant for various applications. Its use in propulsion and power systems represents an innovative solution for reducing emissions and increasing efficiency in air flight.
Our fundamental purpose is to achieve the full satisfaction of our customers and earn their loyalty by offering quality products and services and providing customized solutions for projects, being a benchmark company in the fields of high and ultra-high vacuum and cryogenics.
TVP’s Management expresses its commitment to comply with the requirements applicable to its products and services, as well as to manage the organization towards continuous improvement, this policy being a tool to support strategic management, which allows us to be more efficient and competitive in a constantly evolving environment.
El Depósito Físico de Vapor (PVD, por sus siglas en inglés) es una técnica avanzada de recubrimiento al vacío utilizada para aplicar capas delgadas de materiales en sustratos sólidos. Este proceso se realiza en cámaras de vacío especialmente diseñadas, donde los materiales se evaporan y se depositan en la superficie del sustrato para crear recubrimientos precisos y uniformes con propiedades específicas.
La Deposición Láser de Pulsos (PLD, por sus siglas en inglés) es otra técnica de recubrimiento al vacío que utiliza un láser de pulsos para evaporar y depositar materiales en sustratos sólidos. Este método es especialmente adecuado para depositar materiales cerámicos y películas delgadas de alta calidad con propiedades únicas, como superconductividad y ferromagnetismo.
Las cámaras de vacío desempeñan un papel vital en la astrofísica al proporcionar un entorno libre de contaminantes para la operación de equipos y detectores sensibles. Estas cámaras permiten la realización de experimentos precisos en condiciones controladas, facilitando la investigación y el descubrimiento en el campo de la astrofísica.
La integración en cajas de guantes es un enfoque especializado que permite realizar procesos de recubrimiento al vacío en entornos controlados y libres de contaminantes, como salas limpias o guantes. Esta técnica garantiza la protección de los materiales y sustratos sensibles durante el proceso de recubrimiento, asegurando la calidad y la integridad de los recubrimientos depositados.
El hidrógeno desempeña un papel fundamental en la industria aeroespacial como combustible y propulsor para diversas aplicaciones. Su uso en sistemas de propulsión y energía representa una solución innovadora para la reducción de emisiones y el aumento de la eficiencia en vuelos aéreos.
