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4" x .020" Precision Diamond Lapidary Blade
6" x .014" x 5/8" Sintered (metal bond) Diamond Lapidary Blade - SMART CUT technology
6" x .014" x 1/2" Diamond Lapidary Blade
Smart Lapidary Blades
$47.00 – $234.00
More Consistent & Uniform Overall Performance
Faster Machining Action
Minimal Loss of Material
Easier to Use
Minimal Chipping
Minimal Machining Noise
Minimal Tool Dressing / Diamond Rexposure
Open Bond Design
Diamond or CBN Crystals Working at their Maximum Potential
Maximum Diamond or CBN Exposure
Better & More Consistent Overall Performance
The performance of a diamond & CBN tools depends on how diamonds are distributed and adhered in matrix. Diamond distribution can be random or regular, and its adherence strong or weak. Conventional diamond and CBN tools contain randomly distributed diamond crystals, and their adherence is intrinsically weak. Random diamond distribution combined with weak crystal bonding in conventional diamond tools design may slow down the cutting, drilling, grinding, and machining speed and shorten the tool life.
More Consistent Overall Performance Minimal Chipping
Faster Cut
Longer Life
MInimal Chipping
Minimal Lose of Material
Consistent Cutting Speed
Minimal Cutting Noise
Reduce Material Loss
Minimal Dressing
Easier to use
Inconsistent Cutting Speed
Excessive Dressing
High Heat Generation
Faster Loss of Edge Form
Chipping/Burring
High Material Deformation
Shorter Tool Life
Diamond or CBN Crystals in conventional diamond & CBN tools are separated too far (the impact exerted by each crystal on material becomes excessive). The sparsely distributed diamond or CBN crystals may be crushed or even dislodged from the matrix into which they are disposed. The damaged or missing crystals are unable to fully assist in the work load. Hence the workload is transferred on to the remaining diamond or CBN Crystals particles. The failure of each crystal causes a chain reaction, which soon results in tool ineffective performance or complete failure of the tool.
SMART CUT open bond designs promotes a better coolant system. Air and water flows freely through the diamond bond, providing extra coolant, greater conductor of heat and thus increased product longevity. Instead of heat generated in few places, it is evenly distributed and hence minimized.
Diamond & CBN tools with SMART CUT technology make any work much faster & easier, Thousands of sharp and high quality diamond or CBN particles oriented and evenly distributed on both matrix, allow most jobs to be completed by applying little or only moderate amount of pressure even on the most toughest and challenging materials. Freeing the user from constantly having to dress and renew the diamond layer.
Diamond & CBN tools with SMART CUT technology require minimum dressing, the bond renews itself.
Diamond & CBN tools made utilizing SMART CUT technology are much more aggressive than your conventional tools. They can cut faster, while still leaving behind a smooth finish free of material deformation.
In most cases tools manufactured utilizing SMART CUT technology, will outlast other conventional material (sintered), resin, and nickel bonded diamond & CBN tools. SMART CUT diamond & CBN tools are more sturdy than tools manufactured with conventional technologies. They are capable to retain their form and bond configuration all the way through the tools life.
Most diamond & CBN tools (including conventional diamond / CBN tools) work fairly well when they are brand new. However, after some use the cutting speed begins to gradually tapper down. Some symptoms include: excessively longer cutting speeds, and machine motor bug downs. Increasing amount pressure & time is required to cut same amount of material. The cutting action may stop altogether, within further cutting requiring constant dressing in order to expose new diamond particles. Although initially the tool may appear full of diamonds, but in reality only a small portion of them is able to participate in the cutting action when and where needed at any given point in time.
Constant dressing and pressure placed on material, causes the tool to overheat and loose its tension. The user may find themselves exhorting excessive force and pressure just to cut a small amount of material.
In 1998 UKAM Industrial Superhard Tools, Division of LEL Diamond Tools International, Inc. Developed a solution to this problem. A new breakthrough called SMART CUT technology in manufacturing precision diamond tools. SMART CUT will greatly improve your diamond tool cutting, drilling, grinding, and lapping efficiency SMART CUT is an ADVANCED technology that redefines the standard in manufacturing diamond tools. Utilizing this technology a diamond tool manufacturer is capable of orienting diamonds inside matrix so that every diamond is better able to participate in cutting or drilling action. SMART CUT open bond design makes sure every diamond is in the right place and at the right time, working where you need it most. You get maximum use of diamond and bond.
This technology makes diamond concentration almost irrelevant. What most diamond tool manufacturers used to do, and still do today is place diamonds inside the metal matrix, with no control over diamond distribution. The problem with this approach is inconsistent diamond tool performance. Only about 40% of these diamonds are able to participate in diamond machining action. The rest fall out, become dull, or disintegrate before they have a chance of being used. This factor causes the following problems:
One of the main problems faced by diamond tool manufacturers worldwide involves properly orienting and sitioning diamonds inside bond matrix. Over the decades there have been numerous attempts to solve the diamond and CBN distribution problem. Unfortunately, none of the attempts have been proven effective.
Current technologies are also inadequate to provide effective control of diamond mesh size (grit size) and concentration of variations on different parts of the same tool.
Current technologies also do not allow diamond distribution to be factored in when manufacture a wheel specifically designed for individual material property and structure.
In 1998 UKAM Industrial Superhard Tools, Division of LEL Diamond Tools International, Inc. Developed a solution to this problem. A new breakthrough called SMART CUT technology in manufacturing precision diamond tools. SMART CUT will greatly improve your diamond tool cutting, drilling, grinding, and lapping efficiency SMART CUT is an ADVANCED technology that redefines the standard in manufacturing diamond tools. Utilizing this technology a diamond tool manufacturer is capable of orienting diamonds inside matrix so that every diamond is better able to participate in cutting or drilling action. SMART CUT open bond design makes sure every diamond is in the right place and at the right time, working where you need it most. You get maximum use of diamond and bond.
This technology makes diamond concentration almost irrelevant. What most diamond tool manufacturers used to do, and still do today is place diamonds inside the metal matrix, with no control over diamond distribution. The problem with this approach is inconsistent diamond tool performance. Only about 40% of these diamonds are able to participate in diamond machining action. The rest fall out, become dull, or disintegrate before they have a chance of being used. This factor causes the following problems:
One of the main problems faced by diamond tool manufacturers worldwide involves properly orienting and sitioning diamonds inside bond matrix. Over the decades there have been numerous attempts to solve the diamond and CBN distribution problem. Unfortunately, none of the attempts have been proven effective.
Current technologies are also inadequate to provide effective control of diamond mesh size (grit size) and concentration of variations on different parts of the same tool.
Current technologies also do not allow diamond distribution to be factored in when manufacture a wheel specifically designed for individual material property and structure.
Issues faced by concentonal Diamond & CBN Tools:
Premature Diamond Crystal Fracture
Premature Diamond Crystal Rounding
Premature Diamond Crystal Crushing
Premature Diamond Crystal Pullout
Conventional diamond & cbn tools have diamond or CBN crystal randomly dispersed inside the bond matrix, with no control overy diamond or cbn crystal distribution.
This cause inconsistent tool performance
The distribution between each Diamond or CBN particles determines the work load each diamond will perform. Improper distribution of diamond or CBN particles typically leads to premature failure of diamond particles or bond structure. If diamond or CBN particles are too close to one another, some of these particles are redundant and provide little or no assistance in cutting, drilling, grinding, or lapping. Excess diamonds particles increase the cost of manufacturing diamond tools, due to high cost diamond and CBN powder.
Yet have no effect in increasing performance. In fact excess and non performing diamond or CBN particles reduce the diamond tools overall performance and efficiency by blocking up the passage of debris from material being machined. In many cases these excessive diamond particles play a major rule in decreasing the useful life of your diamond tool. Conventional diamond tools have been suffering from these type of problems and inefficiencies for over 50 years.
After a few dozen uses a conventional diamond tool, and its speed gradually begins to slow down. You will notice excessively longer machining speeds, and equipment motor bug downs. And since only a few diamonds participate in the machining action, you may find yourself applying an increasing amount of pressure just to machine the same amount of material. Without properly orienting the diamonds conventional diamond tools quickly become dull, out of round. With further machining requiring constant tool dressing, in order to expose new diamonds.
Constant diamond tool dressing and pressure put forth on material, causes the tool to overheat and loose its tension. The user may find themselves using excessive force and pressure just to machine a small amount of material.
SMART CUT technology allows the diamond tool manufacturer to control diamond spacing. Hence improving performance of every diamond particle. This Reduces the need for high diamond concentration used today in conventional diamond tools. This unique open bond design insures you get the maximum usage of diamond and bond every time you use a SMART CUT product.
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