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Key to Perfect PVD Coating: Pre-Baking Ceramic Decorations
For ceramic items receiving PVD coatings, a long, precise baking process—often up to ten hours—is essential. This step has one main goal: to completely remove all organic materials and moisture from applied decals. This creates the perfectly clean and stable base needed for high-quality Physical Vapor Deposition (PVD). This is a critical first step, whether using standard Coating Equipment or advanced systems like the TG Multiarc Ion Sputtering Machine, and is vital for applications from...
PVD Coating Technology: Revolutionizing the Future of High-End Bathrooms
In the world of bathroom design and manufacturing, PVD (Physical Vapor Deposition) vacuum coating technology has established itself as a revolutionary force, transforming ordinary bathroom fixtures into extraordinary pieces of functional art. This advanced surface treatment technique, performed in a vacuum environment, has gained widespread popularity for its ability to enhance product value through exceptional durability, corrosion resistance, and stunning visual appeal . The PVD Advantage in...
Innovating Surface Engineering: Desion Technology's Global Impact
For over three decades, Desion Technology Company Limited has been a pioneering force in the vacuum coating industry, founded on the vision of our Chairman, Mr. Wu Wenquan. Guided by the principle of "Technological Innovation, Quality First, User Foremost," we specialize in the design and manufacture of advanced vacuum coating equipment, serving clients across the globe. Our Core Strengths and Certifications Desion Technology is recognized as a National High-Tech Enterprise and a Specialized,...
Essential Pre-Treatment for PVD Coating on Aluminum Products
Aluminum and its alloys are widely used in various industries due to their excellent strength-to-weight ratio and good corrosion resistance. However, applying a high-quality, durable PVD (Physical Vapor Deposition) coating directly onto an untreated aluminum surface is challenging. To ensure optimal adhesion, appearance, and performance, a series of precise pre-treatment steps are absolutely crucial before the components are loaded into the coating equipment. Critical Pre-Treatment Steps for...
Enhancing Plastic Products with PVD Coating and UV Painting Technology
In the manufacturing industry, the combination of Physical Vapor Deposition (PVD) coating and UV painting has revolutionized the surface treatment of plastic products. This sophisticated process enhances both the aesthetic appeal and functional durability of items ranging from automotive parts to consumer electronics. By integrating advanced Coating Equipment like the GD Large Multiarc Ion Sputtering Machine and TG Multiarc Ion Sputtering Machine, manufacturers can achieve superior metallic...
The Principles and Applications of PVD Evaporation Coating
Physical Vapor Deposition (PVD) evaporation coating is a high-tech process used to apply thin, super-hard, and highly durable films onto various substrates. This advanced coating technology is fundamental in enhancing the performance, durability, and aesthetic appeal of components across numerous industries. By understanding its core principles and wide-ranging applications, one can appreciate the critical role played by sophisticated Coating Equipment like the GD Large Multiarc Ion Sputtering...
The Application of PVD Vacuum Coating in Stainless Steel Imitation Jewelry
Stainless steel imitation jewelry has gained immense popularity for its durability, hypoallergenic properties, and aesthetic versatility. A key technology driving this trend is Physical Vapor Deposition (PVD) vacuum coating, which significantly enhances the product's appearance, color options, and longevity. This advanced process allows manufacturers to create stunning, high-quality finishes that rival precious metals, making it a cornerstone of modern costume jewelry production. 1. Enhancing...
The Principle and Process of Multi-Arc Ion Vacuum Coating Technology
In modern manufacturing, surface coating technology plays a vital role in enhancing product durability, aesthetics, and functionality. Multi-Arc Ion Vacuum Coating, a Physical Vapor Deposition (PVD) technique, stands out for its ability to produce extremely hard, wear-resistant, and decorative coatings. This article briefly explains the principle of this technology and its associated surface treatment workflow, highlighting key equipment like the ZJ Large Diameter Multiarc Ion Coating Machine...
Unveiling the Core Components: A Guide to Vacuum Pumps in PVD Coating System
Vacuum systems are the heart of Physical Vapor Deposition (PVD) coating machines, enabling precise thin-film deposition on substrates like hardware, tools, and decorative items. The performance of these systems hinges on two critical stages: low vacuum (roughing) and high vacuum (process). Here, we break down the configuration of PVD vacuum pumps and highlight industry-leading brands. 1. Low Vacuum Pumps: Foundation of the Process Low vacuum pumps create the initial pressure reduction from...
The Vital Link: Sputtering Targets and Vacuum Coating Technology
In the world of advanced surface engineering, sputtering targets stand as indispensable materials that drive the vacuum coating industry. These specialized metals, when combined with advanced Coating Equipment, enable the creation of high-performance thin films that transform product capabilities across countless industries. Common Types of Sputtering Targets Sputtering targets come in various compositions, each engineered for specific application requirements. Among the most prevalent are:...
Precision Engineered PVD Vacuum Coating Solutions: 30+ Years of Global Excellence
In the evolving landscape of surface coating technology, Physical Vapor Deposition (PVD) vacuum coating machines stand out for their ability to enhance material durability, functionality, and aesthetics. As industries worldwide seek reliable and cost-effective solutions, Chinese manufacturing has emerged as a leader in producing high-performance, customizable PVD systems. Among the limited number of manufacturers with substantial overseas experience, our company proudly boasts over three...
PVD Vacuum Coating Technology Shines at Canton Fair Phase II
GUANGZHOU, China – The second phase of the 138th China Import and Export Fair (Canton Fair) is set to open from October 23 to 27, 2025, at the China Import and Export Fair Complex in Guangzhou. This session will showcase a diverse range of products, including household items, gifts, decorations, and building materials. Among the exhibits, PVD (Physical Vapor Deposition) vacuum coating machines are drawing significant attention for their advanced applications in surface treatment and decorative...
Revolutionizing Kitchen Sinks: Advanced PVD Coating Technology Heads to Turkey
We are thrilled to announce the successful shipment of a state-of-the-art PVD coating machine to Turkey, specifically designed for stainless steel kitchen sink manufacturers. This monumental diameter 2500mm × height 3000mm Coating Equipment represents our commitment to innovation in surface treatment technology. Meeting the Growing Demand for Premium Sink Finishes The global market for premium kitchen sinks has seen remarkable growth, with consumers increasingly seeking durable, aesthetically...
PVD Coating on Stainless Steel: Enhancing Performance and Aesthetics
Stainless steel PVD coating represents a significant advancement in material science, transforming this already versatile metal into a superior engineering material. The PVD coating process creates thin, ultra-hard ceramic or metallic layers on pvd stainless steel surfaces, enhancing their inherent properties without compromising structural integrity. Key Advantages of PVD Coated Stainless Steel PVD plated stainless steel offers exceptional durability, with surface hardness reaching up to 10...
Global Distribution of PVD Vacuum Coating Technology: Markets and Differences
PVD (Physical Vapor Deposition) vacuum coating is a vital surface treatment technology globally, known for creating high-hardness, wear-resistant, and decorative coatings. The global PVD vacuum coating equipment market was valued at approximately $2.41 billion in 2022 and is expected to reach $3.16 billion by 2029, growing at a CAGR of 4.0%. This growth is driven by advancements in semiconductors, optics, automotive, and decorative hardware. Here, we explore the top three regional markets and...
Essential Pre-Treatment Steps for High-Quality Vacuum Plating
In the world of vacuum plating, the difference between a superior product and a failure often lies in the critical pre-treatment steps performed before the coating even begins. Proper surface preparation ensures exceptional adhesion, flawless finishes, and long-lasting durability for your products. As a trusted supplier of advanced surface treatment solutions, we outline the vital pre-treatment steps and their importance. ? 1. Ultimate Cleaning & Degreasing Why: Any residual oil, grease, or...
The Evolution of PVD Vacuum Coating Technology in China: A Journey of Innovation
China’s PVD vacuum coating industry has transformed from a nascent technology to a global leader, driven by innovation and strategic development. Here’s a look at its journey through four key stages: 1. Initial Stage (1980s-2000s): Laying the Foundation Technology Introduction: PVD technology was initially introduced through imported equipment, primarily for decorative hardware and cutlery coatings. Early applications focused on basic gold titanium finishes for accessories and household...
China’s PVD vacuum coating industry is positioned for transformative growth over the next decade, fueled by stringent environmental policies and booming demand for advanced surface technologies. As global manufacturing pivots toward sustainability, China’s innovations in Coating Equipment are setting new benchmarks for efficiency and eco-compliance. 1. Eco-Driven Market Expansion & Policy Support Green Transition Acceleration: Traditional electroplating, notorious for pollution, is being...
Why Choose China-Made PVD Vacuum Coating Equipment?
China has emerged as the global leader in manufacturing advanced, efficient, and scalable PVD vacuum coating systems. Here’s why global industries trust Chinese suppliers: Unmatched Efficiency for Hardware & FurnitureChinese China Efficient Coating System For Hardware Furniture integrates automation (PLC+touchscreen controls) and rapid-processing tech. For example, multiarc systems enable uniform decorative coatings (gold, rose gold, black) on complex shapes like handles, hinges, and...
Understanding MF Magnetron Sputtering: Key Advantages and Limitations
Mid-frequency (MF) magnetron sputtering stands as a critical PVD coating technology, particularly valued for its ability to deposit high-quality functional and decorative films. Below, we objectively outline its core strengths and constraints: Advantages: Superior Film Quality: Produces exceptionally dense, smooth, and hard coatings (like TiN, TiAlN, or DLC) with strong adhesion, ideal for wear-resistant tools and decorative finishes. High Deposition Efficiency: Operates at 2–3× the rate of DC...
Revolutionizing Kitchen Spaces: PVD Vacuum Coating Transforms Stainless Steel Sinks
1. Why Stainless Steel Sinks Need PVD Coating Problem: Traditional sinks suffer from scratches, corrosion & limited color options. Solution: PVD deposits nano-ceramic/metallic layers (e.g., TiN, ZrN) for: 3× Scratch Resistance (Hardness up to 2,000 HV) Acid/Salt Spray Immunity (Passes 48h CASS tests) Eco-Friendly Luxury Finishes (Rose gold, black titanium – no toxic wastewater). Key Advantage: Atomic-level bonding ensures lifelong adhesion, unlike peeling paints. 2. PVD Dominance in Sink...
Arc Discharge in Ion Vacuum Coating Machines
Understanding Arc Discharge in PVD Coating Technology Arc discharge is a fundamental process in vacuum coating machine operations, particularly in PVD coating machine systems. When the current limiting resistance of glow discharge is reduced, the discharge current increases, transitioning to arc discharge. This phenomenon is characterized by high current density and low electrode voltage, sustained by two key electron emission mechanisms: Thermal Emission – Generated by localized high...
How to Adjust Parameters of Vacuum Coating Machines
Mastering the parameter adjustment of Vacuum coating machines (our main product) is essential for coating engineers to achieve desired film layers or colors. As a crucial industrial equipment, vacuum coating systems deposit thin films on object surfaces in vacuum environments, significantly enhancing corrosion resistance, wear resistance, and aesthetic properties. This comprehensive guide explains key parameter adjustments for optimal coating quality while incorporating insights about our...
Vacuum Coating Machine Technologies Explained
Vacuum coating machines utilize advanced PVD (Physical Vapor Deposition) technologies to apply thin, durable coatings on various substrates, including metals, glass, ceramics, semiconductors, and plastics. These processes occur in a vacuum environment, ensuring high-quality, contamination-free results. Below, we explore the primary coating methods used in modern Vacuum coating machine systems. 1. Vacuum Evaporation Coating Under vacuum conditions, the film material is heated until it...
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