Resin 3D printers have gained significant popularity due to their capability to create highly precise, isotropic, and watertight components using a variety of advanced materials, characterized by intricate details and a polished surface finish. This method of printing is particularly suitable for applications that demand stringent tolerances and smooth finishes, including rapid prototyping, tooling, manufacturing aids, models, and low-volume end-use components.
The Chinese large-size industrial-grade SLA Stereolithography 3D Laser Printer utilizes ultraviolet laser to cure resin, layer by layer, achieving high precision, smooth surface, and fast printing speed. efficiently prototypes a wide range of products with a printing size of up to 1600*1600mm.
Resin 3D printers have gained significant popularity due to their capability to create highly precise, isotropic, and watertight components using a variety of advanced materials, characterized by intricate details and a polished surface finish. This method of printing is particularly suitable for applications that demand stringent tolerances and smooth finishes, including rapid prototyping, tooling, manufacturing aids, models, and low-volume end-use components.
The Chinese large-size industrial-grade SLA Stereolithography 3D Laser Printer utilizes ultraviolet laser to cure resin, layer by layer, achieving high precision, smooth surface, and fast printing speed. efficiently prototypes a wide range of products with a printing size of up to 1600*1600mm.
The hand held fiber laser marking machine is an intelligent laser marking system that is ideal for marking flat metal and non-metal surfaces and is an excellent solution for achieving permanent, high-contrast and fine marking.
Features
Lightweight and portable design for easy handheld operation.
Suitable for various scenes and working environments, it can be used for fixed indoor office and flexible for outdoor operation.
Integrated flexible software control system can achieve various marking effects and customize multiple patterns.
Applications and Materials
Applicable to a variety of materials such as metals, plastics, rubber, ceramics, glass, etc.
Mainly used in electronics, automobiles, medical devices, aerospace, home appliances, mechanical hardware, textiles, accessories and other industries.
The all in one fiber laser marking machine delivers exceptional precision, rapid operation, and adaptable functionality for marking various metal materials. Designed with ergonomics in mind, this machine ensures user-friendliness and optimal efficiency. Its user-friendly software interface allows for straightforward setup and operation, enabling the production of accurate, consistent, and durable markings.
SLM Machine is used for industrial-grade additive production. We also provide industrial metal 3D printing with advanced processes, compatible with the widest range of metal materials, including aluminum alloys, titanium alloys, cobalt-chrome, nickel-based alloys, stainless steel, tool steel, copper alloys and other micro-grade metal powders.
SLM Printing Technology
SLM printing uses selective laser melting technology to melt metal powder and solidify it layer by layer until a three-dimensional part is built. During this process, a ruler in the build chamber will lay a layer of metal powder, and a high-powered laser will selectively melt the powder by tracing the cross-section of the part on the surface of the powder bed, and then apply a new coating of material for the next layer. The whole process is carried out in a high vacuum chamber or a chamber filled with protective gas to prevent the metal powder from reacting with oxygen at high temperatures.
Features
High surface quality of parts before polishing.
High part accuracy, suitable for precision samples.
Direct production of functional metal parts, simplifying the manufacturing process.
The parts have good metallurgical and mechanical properties, with a relative density greater than 99%, and no subsequent processing is required.
Depending on the size and complexity, parts can be printed in minutes to hours.
Direct production of functional complex geometric parts, such as snap-on or loose hinges
Depending on the complexity, parts can be completed in minutes or hours.
Wide selection of materials, metal powder can be a single metal or an alloy.
Especially suitable for single or small number of functional parts.
The hand held fiber laser marking machine is an intelligent laser marking system that is ideal for marking flat metal and non-metal surfaces and is an excellent solution for achieving permanent, high-contrast and fine marking.
Features
Lightweight and portable design for easy handheld operation.
Suitable for various scenes and working environments, it can be used for fixed indoor office and flexible for outdoor operation.
Integrated flexible software control system can achieve various marking effects and customize multiple patterns.
Applications and Materials
Applicable to a variety of materials such as metals, plastics, rubber, ceramics, glass, etc.
Mainly used in electronics, automobiles, medical devices, aerospace, home appliances, mechanical hardware, textiles, accessories and other industries.
The all in one fiber laser marking machine delivers exceptional precision, rapid operation, and adaptable functionality for marking various metal materials. Designed with ergonomics in mind, this machine ensures user-friendliness and optimal efficiency. Its user-friendly software interface allows for straightforward setup and operation, enabling the production of accurate, consistent, and durable markings.
All-in-One Laser Machine
The All-in-One Laser Machine is a versatile, high-performance system designed to meet the needs of modern manufacturing and precision marking industries. With customizable features and cutting-edge laser technology, the All-in-One Laser Machine offers an all-in-one solution for engraving, marking, cutting, and more.
The AiO all-in-one laser features an ultra-compact lightweight design and ultra-high performance to power the JCZ EZCAD3 and JPT MOPA fiber lasers.
Features
Laser Type: Choose between Q Pulsed Fiber (20W, 30W models) or MOPA Pulsed Fiber (50W model), providing exceptional energy and pulse control for varied applications.
Wavelength: 1064nm for superior marking, engraving, and cutting on a wide range of materials, including metals, plastics, ceramics, and more.
Beam Quality: The machines offer beam quality of
Laser Trimming Machine
The laser trimmer mainly uses a short pulse laser to scan and trim the resistor, the laser vaporizes the resistive film on the ceramic substrate and cuts a certain depth of incision on the resistor, changing the length and cross-sectional area of the resistor, thus changing the resistance value of the resistor.
How does laser trimming work?
Laser trimming involves using a focused laser beam to precisely cut or modify materials, typically thin films or electronic components, by removing unwanted portions. The process is controlled with high accuracy, allowing for fine adjustments to be made without physically touching the material. Itâ??s commonly used in applications like trimming resistors, capacitors, and other microelectronic components, where precision is crucial.
Appliance
Automotive Electronics.
Electric Vehicles
Fuel Tank Measurement
Sensor Technology: Temperature Sensors
Temperature Sensors
Parking distance sensors
Pressure sensors
Industrial and Power Electronics: Current Controllers
Current Controllers
Hybrid circuits
Aerospace.
Satellite Systems
Crystal Oscillators
Automation
Measurement and Control Technology
Medical Technology, Medical Sensors
Linear and circular potentiometers
Laser Resin 3d Printer
The Laser Resin 3D Printer combines cutting-edge Nd:YVO4 laser technology with high-precision scanning and advanced motion systems to provide exceptional prototyping and production capabilities.
Laser resin 3D printers have gained significant popularity due to their capability to create highly precise, isotropic, and watertight components using a variety of advanced materials, characterized by intricate details and a polished surface finish. This method of printing is particularly suitable for applications that demand stringent tolerances and smooth finishes, including rapid prototyping, tooling, manufacturing aids, models, and low-volume end-use components.
The Chinese large-size industrial-grade SLA Stereolithography 3D Laser Printer utilizes ultraviolet laser to cure resin, layer by layer, achieving high precision, smooth surface, and fast printing speed. efficiently prototypes a wide range of products with a printing size of up to 1600*1600mm.
Key Features
Laser Technology: Powered by a 355nm Nd:YVO4 laser for ultra-precise and reliable resin curing. Available in 3W and 5W laser power options, enabling efficient and high-resolution prints.
High Scanning Speed: With a maximum scanning speed of up to 10m/s, the SLA-L Series ensures rapid production without compromising accuracy.
Precision Control: The laser system achieves a beam size of 0.1-0.2mm, making it ideal for detailed and intricate designs.
Resin Tank & Coating System: The PTC Warming System ensures uniform resin heating for improved print consistency, while the precision coating system supports normal, rapid, and precise coating thicknesses, ranging from 0.0125mm to 0.1mm.
