Glossary Of Laser Engraving and Cut Terms
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Kerberos Kerberos is a network authentication protocol widely used in computer networks to provide secure authentication for users and services over non-secure networks. Developed by the Massachusetts Institute of Technology (MIT), Kerberos uses strong cryptographic techniques to verify the identities of users and services and to establish secure communication channels between them. Kerberos operates based on a trusted third-party authentication server, known as the Key Distribution Center (KDC), which issues encrypted tickets to users and services to authenticate their identities.
By leveraging symmetric key cryptography, Kerberos enables mutual authentication between clients and servers, preventing unauthorized access and protecting sensitive information from eavesdropping and tampering. Kerberos is a foundational technology in modern network security architectures and is widely supported by operating systems, directory services, and network infrastructure components. |
Kerf Compensation Kerf compensation is a technique used in computer-aided design (CAD) and computer-aided manufacturing (CAM) software to adjust the dimensions of a digital design to account for the kerf width during cutting processes. Since cutting processes remove material, the actual dimensions of the cut parts may differ from the dimensions specified in the digital design. Kerf compensation allows designers and manufacturers to adjust the dimensions of the digital model by a specified amount to compensate for the material lost during cutting. By incorporating kerf compensation into the design process, manufacturers can ensure that the final parts or components meet the desired dimensional tolerances and specifications. |
Kerf Width Kerf width refers to the width of the material removed during a cutting process, typically by a laser, plasma torch, water jet, or other cutting tools. It represents the width of the cut path and is an essential consideration in precision cutting applications where tight tolerances and accurate dimensions are crucial. Kerf width depends on various factors, including the type of cutting method, the material being cut, cutting speed, power settings, and the characteristics of the cutting tool. Minimizing kerf width is important to optimize material usage, achieve precise cuts, and maintain dimensional accuracy in the finished parts or components. |
Kern Laser Systems Kern Laser Systems is a manufacturer of high-quality laser cutting and engraving machines designed for industrial, commercial, and educational applications. Kern Laser Systems offers a range of laser systems, including CO2 laser cutters, fiber laser cutters, and laser engravers, designed to provide precision, reliability, and versatility in cutting, engraving, marking, and materials processing tasks.
Kern laser systems are equipped with advanced features such as servo motors, high-resolution optics, automatic focusing, rotary attachments, and user-friendly software interfaces to streamline workflow, optimize performance, and achieve exceptional results in various materials and applications. Kern Laser Systems serves industries such as aerospace, automotive, signage, packaging, woodworking, and education, providing solutions for prototyping, production, customization, and manufacturing needs. With a reputation for innovation, quality, and customer satisfaction, Kern Laser Systems continues to be a leading provider of laser cutting and engraving solutions worldwide. |
Kilowatt Kilowatt (kW) is a unit of power measurement equal to one thousand watts. It is commonly used to quantify the rate at which energy is transferred, converted, or consumed in electrical, mechanical, thermal, and optical systems. Kilowatts are used to express the power output of devices such as electric motors, generators, heaters, air conditioners, lasers, and other electrical appliances. In the context of laser systems, kilowatts are often used to specify the power output of high-power lasers used in industrial cutting, welding, and materials processing applications.
Higher kilowatt ratings indicate greater power output and energy density, which can result in faster processing speeds, deeper penetration, and increased productivity in laser-based manufacturing and fabrication processes. Kilowatts are also used to calculate energy consumption, electricity costs, and power requirements for various equipment and systems in commercial, industrial, and residential settings. |
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