Edmonton Print On Canvas, Custom Made Wood/Metal Frames, Block Mounting & Handmade Oil Paintings
   Toll Free: 1-888-533-6278 (KeenART)      Deals  
  My Account     My Uploads     My Cart  
Products & Pricing -> Custom-Made Frames -> Resources
 Wood Frames  Metal Frames  Mat Boards      Adv. Search
 :: Resources :: 


Picture Framing
Articles Glossary
Giclee
Articles Glossary
Printing
Articles Glossary
Photography
Articles Glossary
Art
Articles Glossary
Fabric
Articles Glossary
Laser
Articles Glossary

  Glossary Of Laser Engraving and Cut Terms [42]
>
A B C D E F G H I J K L M N O P Q R S T U V W XY Z  All  



A
Ablation  A process in laser engraving where material is removed from a surface through vaporization or melting, leaving behind the desired pattern or design. Ablation is commonly used in various materials such as metals, plastics, and ceramics to create precise and detailed engravings.
Absorb  Material's absorption of laser energy, crucial for engraving effects.
Absorption  Absorption is the process by which materials absorb light energy emitted by a laser beam during engraving. The absorbed energy is converted into heat, causing the material to undergo changes such as melting, vaporization, or color alteration, depending on the material composition and laser parameters.
Absorption Coefficient Factor  The absorption coefficient factor measures the rate at which a material absorbs laser energy during the engraving process. It quantifies the material's ability to convert incident light into heat, influencing the efficiency and effectiveness of laser engraving on different substrates.
Absorption of Radiation  The absorption of radiation refers to the process by which materials absorb electromagnetic radiation emitted by a laser during engraving. This absorption leads to temperature increases in the material, resulting in various effects such as melting, vaporization, or chemical changes required for engraving.
Acceleration  In laser engraving, acceleration refers to the rate at which the engraving head or gantry moves across the material's surface. Controlling acceleration is crucial for achieving precise and consistent engraving results, as it determines the speed at which the laser beam traces the desired pattern or design.
Accessible Emission  Accessible emission refers to the laser radiation that is accessible to individuals during the engraving process. Laser engraving machines should incorporate safety measures to limit accessible emission levels to ensure the protection of operators and bystanders from potential hazards associated with laser radiation exposure.
Acrylic Engraving  In laser engraving, acrylic engraving involves using a laser to create designs, patterns, or text on acrylic material. The laser beam interacts with the acrylic surface, either by melting, vaporizing, or charring it, depending on the power and speed settings. This process creates a contrast between the engraved area and the surrounding material, resulting in a visually striking design.

Acrylic engraving is popular for creating signage, awards, decorative items, and other products due to its ability to produce intricate and detailed designs with a high level of precision.

Actuator  An actuator is a mechanical or electrical device used in laser engraving systems to control the movement of components such as the laser head, focusing lens, or material bed. Actuators enable precise positioning and motion control, ensuring accurate engraving and cutting operations.
Adaptive Optics  Adaptive optics is a technology used in laser engraving systems to compensate for optical aberrations and distortions caused by variations in material thickness, surface irregularities, or environmental conditions. By dynamically adjusting optical elements, adaptive optics optimize laser beam quality and focus, enhancing engraving precision and depth consistency.
ADF Assembly  The ADF Assembly refers to the collection of components that make up the Automatic Document Feeder (ADF) Unit in laser engraving systems. It typically includes rollers, sensors, guides, and motors that work together to feed materials smoothly and accurately into the engraving machine, ensuring consistent results and reducing the need for manual handling.
ADF Unit  In laser engraving, an ADF (Air Delivery System) Unit is a crucial component responsible for directing a stream of compressed air onto the surface being engraved. This system serves several purposes:


Cleaning: The ADF unit helps in removing debris and particles generated during the engraving process. As the laser beam interacts with the material, it vaporizes or burns away the surface, creating dust, smoke, and other residues. Without proper removal, these residues can obstruct the engraving process and compromise the quality of the final product.


Cooling: Laser engraving can generate significant heat, especially when working with certain materials or executing intricate designs. The ADF unit helps dissipate this heat by blowing cool air onto the engraved surface, preventing overheating and potential damage to both the material and the laser system itself.


Preventing Flare-Ups: Certain materials, such as wood or plastics, can ignite if they become too hot during the engraving process. The air from the ADF unit helps to keep the material cool, reducing the risk of flare-ups and ensuring a safer working environment.


Improving Engraving Quality: By keeping the surface clean and cool, the ADF unit contributes to achieving higher precision and consistency in the engraving process. It helps maintain optimal conditions for the laser beam to interact with the material, resulting in sharper details and smoother finishes.


Overall, the ADF unit plays a critical role in ensuring efficient and effective laser engraving operations by controlling debris, managing heat, and enhancing engraving quality.

AI (Adobe Illustrator)  Adobe Illustrator (AI) is a vector-based graphic design software widely used in laser engraving for creating and editing intricate designs, logos, and graphics. Its powerful tools and features enable users to produce high-quality vector artwork that can be easily imported into laser engraving software for precise engraving onto various materials.
Aiming Beam  An aiming beam in laser engraving serves as a visual guide to indicate the precise location where the laser will engrave on the material. It helps operators accurately position designs and align workpieces before engraving, ensuring optimal results. Typically, the aiming beam is a low-power laser that operates alongside the primary engraving laser, providing a non-destructive reference point for positioning without affecting the material's surface.
AIO (All-in-One)  In the context of laser engraving, AIO refers to All-in-One laser engraving machines that combine multiple functions such as cutting, engraving, and marking within a single system. These versatile machines offer convenience and flexibility for a wide range of engraving applications, from signage and personalization to industrial prototyping and fabrication.
Air Assist  Air assist is a crucial feature in laser engraving that involves the use of compressed air to blow away debris, smoke, and particles generated during the engraving process. By clearing the engraving area, air assist helps maintain visibility, prevents debris buildup, and improves engraving quality by reducing the risk of material contamination or damage from excessive heat accumulation.
Air Cooling  Air cooling is a method employed in laser engraving systems to dissipate heat generated by the laser source and optical components. It involves circulating cool air or maintaining a controlled airflow around critical components to prevent overheating and ensure the stable operation of the laser system. Air cooling mechanisms help maintain optimal performance and prolong the lifespan of laser engraving equipment by preventing thermal degradation and component failure.
Alignment  Alignment in laser engraving refers to the precise positioning and adjustment of optical components, including laser sources, mirrors, lenses, and workpieces, to ensure accurate and consistent engraving results. Proper alignment is essential for achieving sharp focus, uniform beam delivery, and precise tracing of desired patterns or designs onto the material surface. Through meticulous alignment procedures, operators optimize engraving quality, minimize errors, and enhance productivity in various laser engraving applications.
Alignment Tools  Alignment tools in laser engraving systems include precision instruments and devices designed to facilitate the alignment process of optical components and workpieces. These tools may include laser alignment systems, optical alignment jigs, alignment targets, and calibration accessories that enable operators to accurately align and calibrate laser beams, lenses, and mirrors for optimal engraving performance. By utilizing alignment tools, operators streamline setup procedures, enhance engraving accuracy, and maintain consistent quality standards across different engraving projects.
Ambient Noise/Electromagnetic Interference (EMI)  In laser engraving, ambient noise and electromagnetic interference (EMI) can disrupt the operation of sensitive electronic components and interfere with laser beam stability and accuracy. Shielding laser engraving systems from ambient noise and EMI sources such as electronic devices, power lines, and radio frequency signals is crucial for maintaining signal integrity, minimizing signal distortion, and ensuring reliable engraving performance. Effective noise reduction measures and electromagnetic shielding techniques help mitigate the impact of ambient noise and EMI on laser engraving systems, preserving engraving quality and minimizing potential errors caused by external interference.
Amplification  Amplification in laser engraving refers to the process of increasing the power and intensity of a laser beam by passing it through an amplifying medium such as a laser gain medium or optical amplifier. By stimulating the emission of photons within the amplifying medium through processes like stimulated emission or population inversion, laser amplification enhances the energy and coherence of the laser beam, enabling it to effectively engrave and cut through various materials with precision and efficiency. Laser amplification techniques play a vital role in increasing engraving speed, depth, and throughput, making them indispensable for industrial and commercial laser engraving applications.
Amplitude  Amplitude in laser engraving represents the maximum displacement or height of a laser beam's oscillation as it propagates through space or interacts with a material surface during engraving. It measures the strength or intensity of the laser beam's electric or magnetic field and influences the energy delivered to the material, affecting engraving depth, resolution, and quality. Controlling the amplitude of the laser beam through modulation techniques, such as pulse width modulation or amplitude modulation, allows operators to adjust engraving parameters and achieve desired material effects, including surface ablation, etching, and marking, across a wide range of substrates and applications.
Analog  In laser engraving, analog refers to the continuous variation of laser parameters, such as power, speed, and intensity, to produce smooth and continuous engraving patterns or gradients on materials. Analog engraving techniques involve modulating laser signals in real-time to precisely control the laser beam's characteristics and achieve intricate designs, shades, and textures with high fidelity and resolution. By leveraging analog engraving capabilities, operators can create visually stunning and detailed engravings that replicate natural textures, gradients, and artistic effects on diverse materials, including wood, acrylic, leather, and glass, for decorative, artistic, and industrial applications.
Angstrom  An angstrom is a unit of measurement commonly used in laser engraving to quantify the wavelength of light emitted by laser sources and determine their optical properties and performance characteristics. Equal to one ten-billionth of a meter (10^−10 meters), an angstrom provides a precise measure of the laser beam's electromagnetic wavelength, which influences its interaction with materials and determines engraving capabilities, resolution, and efficiency. By selecting laser sources with specific angstrom wavelengths tailored to material properties and engraving requirements, operators optimize engraving processes, enhance material processing capabilities, and achieve superior results across a wide range of laser engraving applications and substrates.
Annealing  Annealing is a laser engraving technique used to heat-treat metal surfaces and induce controlled changes in their microstructure, hardness, and mechanical properties without altering their overall shape or dimensions. By applying focused laser energy to the surface of metallic workpieces, annealing softens hardened areas, relieves internal stresses, and promotes grain growth, resulting in improved machinability, formability, and surface finish. Annealing laser engraving processes are widely used in manufacturing, aerospace, and automotive industries to enhance the performance, durability, and functionality of metal components, including gears, bearings, springs, and cutting tools, by imparting desired metallurgical properties and surface characteristics through localized heat treatment and thermal modification.
Anode  In laser engraving, an anode serves as the positively charged electrode within an electrochemical cell or laser marking system that attracts electrons and ions during the engraving process. By providing a terminal for the flow of electric current and facilitating the oxidation reaction at the material's surface, the anode plays a critical role in generating electrical discharges, plasma formation, and chemical reactions required for material removal, etching, and marking. Different anode materials and configurations are employed in laser engraving systems to optimize engraving performance, control discharge characteristics, and ensure reliable operation across various applications and materials, including metals, ceramics, and semiconductors.
Anodized Aluminum  Anodized aluminum is a type of aluminum alloy or substrate that has undergone an electrochemical process called anodization to form a durable, corrosion-resistant oxide layer on its surface. Anodized aluminum surfaces exhibit enhanced hardness, scratch resistance, and color stability, making them ideal substrates for laser engraving, marking, and decorative applications. Laser engraving on anodized aluminum selectively removes or modifies the oxide layer to reveal contrasting colors, create high-contrast designs, and produce permanent, high-resolution markings with exceptional durability and longevity.


Anodized aluminum laser engraving is widely used in signage, branding, consumer electronics, and aerospace industries to achieve aesthetic, functional, and durable product labeling, identification, and customization solutions on aluminum-based components and assemblies.

Aperture  Aperture refers to the opening in a lens through which light passes to reach the camera's sensor. It is measured in f-stops, with lower f-stop numbers indicating larger apertures and higher f-stop numbers indicating smaller apertures.

Aperture plays a crucial role in photography by controlling the amount of light that enters the camera, which affects the exposure of the image.

A larger aperture (smaller f-stop number) lets in more light, resulting in a brighter image and shallower depth of field, where the foreground is sharp while the background is blurred.

Conversely, a smaller aperture (higher f-stop number) allows less light, resulting in a darker image and a greater depth of field, where more of the scene is in focus.

Aperture also influences the quality of the out-of-focus areas in an image, known as bokeh.
Apparent Visual Angle  The apparent visual angle in laser engraving refers to the perceived size of the engraved design or pattern when viewed from a specific distance and angle. It is influenced by factors such as the size of the engraved area, the viewing distance, and the angle of observation relative to the engraved surface. As the viewing angle changes, the apparent visual angle may vary, affecting the perceived sharpness, clarity, and perspective of the engraving. Laser engraving systems optimize apparent visual angles by adjusting engraving parameters, such as resolution and focal depth, to ensure consistent and visually appealing results across different viewing perspectives and distances. This consideration is crucial for applications where precise visual representation and readability are essential, such as signage, branding, and product labeling.
Argon  Argon, a noble gas, finds utility in laser engraving for its ability to stabilize plasma arcs, especially in cutting and welding processes. Acting as a laser gas, argon enhances the efficiency of laser cutting by aiding the expulsion of molten material from the cutting kerf. Its inert nature prevents undesirable reactions with metals, maintaining a clean working environment. In laser engraving systems, argon ensures stable performance, contributing to precise and consistent results across various applications and material types. Its role in facilitating plasma formation and material removal underscores its significance in achieving high-quality cuts and engraving with minimal distortion and discoloration.
Articulated Arm  An articulated arm is a mechanical system integral to laser engraving, facilitating precise beam guidance over workpieces. Comprising multiple segments and joints, the arm allows flexible movement and orientation of the laser head, accommodating intricate engraving tasks and irregular surface contours. This mobility ensures accurate positioning of the laser beam, crucial for achieving fine details and complex designs. Articulated arms play a pivotal role in industrial laser engraving, enabling adaptability to diverse workpiece geometries and optimizing engraving efficiency. Their versatility enhances productivity and accuracy, making them indispensable components in laser engraving systems for various applications, from signage production to intricate artistic creations.
Assist Gas  Assist gas serves as a vital element in laser engraving and cutting processes, enhancing material removal efficiency and cut quality. Compressed gases like oxygen, nitrogen, or air blow away molten material and debris from the engraving area, preventing contamination and maintaining pristine cut edges. The controlled application of assist gas promotes clean, precise cuts across a wide range of materials, including metals, plastics, and ceramics. By facilitating heat dissipation and debris clearance, assist gas contributes to the production of high-quality engravings with minimal discoloration and surface irregularities. Proper selection and regulation of assist gas flow rates and pressures ensure optimal performance and superior engraving outcomes in diverse laser processing applications.
Assist Gas Flow Rate  The assist gas flow rate in laser engraving determines the volume of gas delivered to the processing zone per unit of time. Controlling the flow rate of assist gas is critical for maintaining optimal cutting and engraving conditions, ensuring clean cuts and efficient material removal. By regulating the flow rate, operators optimize gas usage, prevent excessive heat buildup, and minimize material distortion during laser processing.


Fine-tuning assist gas flow rates enables precise control over engraving parameters, enhancing cut quality, edge sharpness, and overall engraving efficiency. Through meticulous adjustment of flow rates, laser engraving systems achieve consistent, high-quality results across various materials and thicknesses, maximizing productivity and operational performance.
Assist Gas Pressure  Assist gas pressure refers to the force exerted by the gas on the material surface during laser engraving or cutting operations. Proper adjustment of assist gas pressure is essential for maintaining optimal cutting conditions, ensuring clean cuts and high-quality engraving results. By exerting controlled pressure on the material surface, assist gas facilitates material removal and debris clearance, preventing heat accumulation and surface discoloration.


Optimal assist gas pressure enhances cutting efficiency, minimizes kerf width, and improves edge quality, contributing to superior engraving outcomes across a wide range of materials and thicknesses. Precise regulation of gas pressure parameters ensures consistent performance and reliable operation of laser engraving systems in various industrial and commercial applications.

Attenuation  Attenuation in laser engraving refers to the reduction in the intensity of the laser beam as it traverses through a medium or interacts with optical components. This reduction can occur due to factors like absorption, scattering, and divergence, impacting the efficiency and accuracy of laser engraving processes. Understanding and mitigating attenuation are essential for maintaining consistent engraving quality and optimizing material processing outcomes. By minimizing energy loss and maximizing beam stability, laser engraving systems achieve precise and uniform material removal, ensuring high-quality engraving results across diverse applications and materials. Effective management of attenuation factors enhances engraving efficiency, accuracy, and reliability, enhancing overall productivity and performance in laser engraving operations.
Autocollimator  An autocollimator is a precision optical instrument utilized in laser engraving systems to measure angular deviations or alignments of reflective surfaces relative to a reference axis. By projecting a laser beam onto a mirror or reflective target and analyzing the reflected beam's deviation, autocollimators enable accurate alignment of optical components and workpieces for optimal engraving performance. These instruments play a crucial role in maintaining alignment precision, ensuring consistent engraving quality and efficiency. With their high level of accuracy and sensitivity, autocollimators facilitate the calibration and optimization of laser engraving systems, enhancing productivity and reducing errors in various industrial and commercial engraving applications.
Average Power  Average power in laser engraving denotes the mean optical power delivered by the laser source over a specified time period. It serves as a fundamental parameter influencing engraving speed, depth, and material processing capabilities. By controlling average power, operators adjust the energy imparted to the material surface, affecting engraving quality and efficiency. Fine-tuning average power enables precise control over engraving parameters, accommodating diverse material properties and thicknesses. Optimal power settings ensure consistent engraving results, minimizing errors and material waste while maximizing productivity. Through meticulous adjustment and monitoring of average power levels, laser engraving systems achieve desired engraving outcomes across a wide range of applications, from fine art and signage to industrial prototyping and manufacturing.
Aversion  Aversion in laser engraving refers to the adverse response or discomfort individuals experience when exposed to bright or intense laser light. This instinctive reaction can lead to discomfort, distraction, or even eye injury if not adequately addressed. Implementing comprehensive laser safety protocols and providing appropriate protective equipment, such as safety goggles and barriers, mitigate aversion and ensure operator safety during engraving operations.


By prioritizing operator well-being and minimizing exposure to intense laser light, laser engraving facilities maintain safe working environments and uphold regulatory compliance standards. Addressing aversion through education, training, and effective safety measures fosters a culture of safety awareness and responsibility, promoting the health and well-being of personnel in laser engraving environments.

Aversion Response  Aversion response describes the natural instinct of individuals to avert their gaze or shield their eyes from bright or intense laser light during engraving operations. This involuntary reaction is a protective mechanism designed to prevent eye damage or discomfort caused by exposure to hazardous levels of laser radiation. Aversion responses underscore the importance of implementing robust laser safety measures and providing appropriate protective equipment in laser engraving facilities.


By acknowledging and addressing aversion responses, operators prioritize safety, minimize the risk of eye injuries, and ensure a secure working environment for personnel. Promoting awareness of aversion responses and fostering a culture of safety consciousness enhance compliance with safety regulations and promote the well-being of individuals in laser engraving environments.

Axial-Flow Laser  An axial-flow laser is a type of gas laser widely used in industrial laser engraving and cutting systems. Its cylindrical optical cavity design facilitates parallel flow of laser gas along the laser beam axis, optimizing energy transfer and enabling high-power output for precision engraving and cutting applications. The axial-flow configuration enhances gas cooling efficiency, ensuring stable laser performance and prolonged operational lifespan. Its robust construction and reliable operation make axial-flow lasers ideal for demanding engraving tasks across various materials and thicknesses. With their high beam quality and power output, axial-flow lasers deliver exceptional engraving results, meeting the stringent requirements of diverse industrial and commercial applications.
Axicon Lens  An axicon lens is a specialized optical component employed in laser engraving systems to shape laser beams into conical or ring-shaped patterns. By generating focused or collimated beams with unique spatial profiles, axicon lenses enable advanced engraving techniques such as beam splitting, interference patterning, and structured illumination. Their unique optical properties and precise beam manipulation capabilities expand the creative possibilities and technical capabilities of laser engraving processes. Axicon lenses find applications in microfabrication, imaging, and laser processing, where precise beam shaping and control are essential for achieving desired engraving effects and meeting specific project requirements. With their versatility and performance, axicon lenses enhance the versatility and performance of laser engraving systems, enabling innovative and intricate engraving applications across various industries and disciplines.
Axis/Optical Axis  In laser engraving, the axis or optical axis represents the imaginary line along which the laser beam propagates and interacts with the material surface during engraving operations. Precise alignment and calibration of optical axes are essential for achieving accurate beam focusing, uniform energy distribution, and consistent engraving results across different workpieces and materials.


By optimizing optical axis alignment, operators enhance engraving quality, resolution, and throughput, ensuring superior performance and reliability in laser engraving systems. Proper alignment minimizes aberrations, distortion, and energy loss, maximizing the efficiency and effectiveness of engraving processes. Through meticulous calibration and alignment procedures, laser engraving systems achieve optimal beam control and material processing capabilities, delivering high-quality results for various industrial and artistic applications.


 
 
 
Quick Info
Home
Contact us
My Account
About us
Sitemap
 
Social Media1
Blog
Twitter
FaceBook
Instagram
YouTube
TikTok
Products
Pricing
Canvas Prints/Frames
Fine Art Prints
Metal & Natural Wood Prints
Handmade Oil Paintings
Plaque Mounting
Custom Greeting Cards
Edmonton Wood Picture Frames
Edmonton Metal Picture Frames
Edmonton Floater Frames
Canvas Stretcher Bars
Custom Stretcher Frames
Edmonton Wood Panels Stocked Sizes
Edmonton Custom Wood Panels
Gift Certificates
Print Instagram Photos
Jersey Shadow Box Frames
Resin Coatings
Artist Canvas & Frames
Textile Printing, Dye-Sublimation
Coffee Mug Prints
T-shirt Printing
Face Mask Prints
Dovetail joining
Edmonton Cityscape & Nature Prints
Services
Artwork Scanning
Collages on Canvas
Word Cloud Design
Effects, Pop art
Artist Gallery program
Local Artists
Classic Art Paintings
Canvas Stretching
Canvas Transfer
Dry Mounting & Lamination
Acrylic/PlexiGlass Sheets
Custom Size Mounting Boards
Classic Art Prints Galleries
Art Galleries
Art Consultation Services
Edmonton Art Supplies
Help
Ideas Galleries
FAQs
Glossary, Framing
Resources
How it works?
Canvas Edge Options
Order Problems?
Matboards
ART IN Edmonton
THE GROUP OF SEVEN
ART IN CANADA
Terms & Conditions
Privacy Policy
Order
My Account
Pro Account
Rush Orders
Shopping Cart
Discounts / Newsletter
Referral
Payment Methods
Testimonials
Corporate Art
***  Deals
Shipping

 Paypal
 Visa
 MasterCard
American Express
Edmonton Alberta Giclee On Canvas, Fine Art Printing - Art Scanning & Reproductions - Handmade Oil Paintings - Custom Wood Panels, Metal Picture Framing - Block/Plaque Mountings, Large Format Dry Mounting & Lamination - Art Supplies: Stretcher Bars, Cradled Wood Panels and Artist Canvas - Collages On Canvas - Plexi/Acrylic Face Mounts - Block Acrylics, Fabric Printing, Dye Sublimation - Cityscape Skyline Prints, Resin, Photo Gifts and more...

A division of CanadaOnCanvas.com Calgary Canvas Prints - Vancouver Photos On Canvas Edmonton Laser Engraving & Cutting Services



© 2002-2024 - KeenART Media Ltd.