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H V O F & Laser Technologies Pty Ltd
Engineering in Campbelltown

www.laserbond.com.au
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28 York Rd. Ingleburn. Campbelltown, NSW, 2565.
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What you should know about H V O F & Laser Technologies Pty Ltd

Engineers in Campbelltown, Fabrication in Campbelltown, Laser in Campbelltown, Metal Manufacturers in Campbelltown

An improved laser cladding deposition process developed by AIDS Member LaserBond is proving far superior in extending wear life for tools, machinery components and wear parts across a huge range of industries and applications. Beginning developed as a heat source for surface engineering technologies in the slow 1990s, laser cladding offered a better finish than the contemporary surface engineering techniques a finish that would deliver even longer component life. LaserBond commissioned the beginning of our laser cladding systems in 2001 to further broaden our surface engineering capabilities and bear customers with access to coatings and overlays with a stuffed metallurgical bond. The RD team have developed an advanced additive manufacturing method to deliver a major improvement in the laser deposition of composite materials for wear applications. Image 3 is an example of conventional wear of carbide in an aggressive erosive and corrosive environment. LaserBond cladding is an advanced laser additive manufacturing process utilizing the precisely controlled energy from a tall power laser to metallurgic ally bond a surfacing material to a substrate. The metallurgical bond created by the LaserBond cladding process results in an extremely tall bond strength between coating and substrate a result of the swift coating solidification which produces extremely fine and wear resistant micro structures. LaserBond can apply hundreds of diverse coatings using a range of thermal spray and laser cladding techniques. What are the processing benefits of LaserBond cladding? The LaserBond cladding process provides a expansive range of processing benefits compared with normal arc and plasma transferred arc (PTA) welding: Provide multiple geometries or material characteristics within same component. What materials can be applied using the LaserBond cladding process? The HP hoof process sprays semi molten droplets of coating material at extremely tall velocities, resulting in coated surfaces of the uppermost plausible quality and performance to improve durability, resistance to corrosion, or both. We give a range of coating materials, each one carefully matched to the characteristics of the job the substrate, the process, wear patterns and the like to enhance a component’s resistance to common wear practices. A nonferrous alloy, cobalt alloys are used for components and equipment requiring corrosion resistance and wear resistance at high temperatures. Generally applied to metal components to enhance their functionality, ceramic coatings are advanced materials systems that yield extended corrosion and wear resistance and have a significantly higher glossy of abrasion resistance. Ceramic coatings can be surface finished to accomplish needed tolerances while maintaining tall levels of resistance to wear, corrosion and mechanical erosion. They are ideal to create a thermal barrier between operating components in industrial and manufacturing facilities. A dedication to research and commitment to the implementation of leading edge technologies has seen LaserBond acknowledged as a national and international leader in surface engineering and wear part care that extends equipment and component operating life. The design and application of high performance metallurgical cladding requires an understanding of bonding and the deposited material. To be a global leader in the research, design and implementation of advanced surface engineering technologies and innovations that tangibly reduce unit operating costs, and impact on the environment, by extending the wear and operational life of production vital equipment. He is continuing to prosper surface engineering technologies and specialist products utilizing the extensive experience and feasible skills found within LaserBond. The healthy being of LaserBond’s business is founded in the triumphant delivery of services and products, with mighty emphasis on safety, quality, environment, performance and client relationships. We have the subsequent opportunities available to join our team:.

The company is a classic grass roots family founded business. Gregory Hooper while active as a leading technical specialist in welding applications and metallurgy foresaw a services company that could embrace new metal spray deposition technology. His brother, Wayne joined the business in 1994. The HP hoof process sprays semi molten droplets of coating material at extremely lofty velocities, resulting in coated surfaces of the maximum plausible quality and performance to improve durability, resistance to corrosion, or both. The design and application of high performance metallurgical cladding requires an understanding of bonding and the deposited material. The well equipped metallographic laboratory enabled LaserBond to make world leading advances in surface engineering for wear. The company now has built several laser systems, the latest one is a 16kw unit integrated into an advanced robotic manufactu
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With this painstaking control, a welded or metallurgical bond is achieved with minimal impacts and effects of heat on both the substrate and surface material. LaserBond cladding technologies give a broad spectrum of industries confronting component and equipment wear issues meaningful opportunities to reduce maintenance costs and enhance operating performance. First developed as a heat source for surface engineering technologies in the late 1990s, laser cladding offered a better complete than the contemporary surface engineering techniques a conclude that would deliver even longer component life. LaserBond commissioned the beginning of our laser cladding systems in 2001 to further broaden our surface engineering capabilities and produce customers with access to coatings and overlays with a stuffed metallurgical bond. The RD team have developed an advanced additive manufacturing method to deliver a major improvement in the laser deposition of composite materials for wear applications. LaserBond cladding is an advanced laser additive manufacturing process utilizing the precisely controlled energy from a high power laser to metallurgic ally bond a surfacing material to a substrate. With this meticulous control, a welded or metallurgical bond is achieved with the undesirable effects of heat on the substrate and the surface material minimized or eliminated. The metallurgical bond created by the LaserBond cladding process results in an extremely tall bond strength between coating and substrate a result of the swift coating solidification which produces extremely desirable and wear resistant micro structures. LaserBond can apply hundreds of diverse coatings using a range of thermal spray and laser cladding techniques. The LaserBond cladding process provides a expansive range of processing benefits compared with normal arc and plasma transferred arc (PTA) welding: What materials can be applied using the LaserBond cladding process? Describe the environment in which the portion is used. Bear the type of substrate, if known. LaserBond has a range of coating processes to apply cost effective metallic or nonmetallic based coatings onto (usually) metallic substrates. Expansive range of coatings available, including ceramic and cermet. The HP hoof process sprays semi molten droplets of coating material at extremely tall velocities, resulting in coated surfaces of the maximum conceivable quality and performance to improve durability, resistance to corrosion, or both. An experienced skilled team, a expansive range of metals with many processes. To attain longer equipment life and apex performance of equipment, may mean heat treating the surface, or the complete component. analyzing, testing, assessing and understanding the metallurgy and characteristics of metal forming processes enables us to deliver the highest quality products and services. As an integral piece of LaserBond’s surface engineering process, carefully selected functional coatings, which take account of substrate properties and component use, are applied to change the surface properties of the substrate to guard from mechanical erosion, corrosion and wear. To accomplish uppermost wear resistance efficiency and coating longevity, it is imperative that the coating material be applied at a controlled thickness. We offer a range of coating materials, each one carefully matched to the characteristics of the job the substrate, the process, wear patterns and the like to enhance a component’s resistance to common wear practices. A nonferrous alloy, cobalt alloys are worn for components and equipment requiring corrosion resistance and wear resistance at high temperatures. Generally applied to metal components to enhance their functionality, ceramic coatings are advanced materials systems that produce extended corrosion and wear resistance and have a significantly higher level of abrasion resistance.
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