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Discover Aluminum Oxide Polishing Films from Hans Diamond Tools, engineered for high-precision surface finishing. Ideal for metals, ceramics, glass, and other hard materials, these lapping discs deliver consistent, professional-quality results. Lappende Film Kranen Huis / Lapping Film Polijstschijf / Diamant lappende filmschijf / Diamond-bead Polishing Tape is gemaakt van micron-grootte diamantkorrels die uit veel kleinere micron-grootte diamantdeeltjes bestaan. Het werkt als een micron-slijpsteen tijdens het polijstproces en geeft een glad polijstoppervlak met een hoge verwijderingssnelheid. Tijdens het polijstproces breken de diamantparels in kleinere deeltjes, die fungeren als polijstketting en zorgen voor consistent polijsten en een langere levensduur bereiken. Opmerking: Aanpassingen zijn beschikbaar op aanvraag. Functies 1. Consistente verwijderingssnelheid en een lange levensduur; 2. Krast vrij en produceert een superieure oppervlakteafwerking.

Explore superfinishing and grinding machines from Hans Diamond Abrasive Tools, featuring precision lapping film for high-accuracy polishing. Ideal for metals, ceramics, glass, and other hard materials, delivering smooth surfaces and superior finishing performance. Siliciumcarbide lepfilmschijf / Siliciumdioxide lepfilm / Siliciumdioxide lepfilmschijf bestaat uit een mylar-film bedekt met hars die siliciumdioxidedeeltjes bevat. Het wordt aanbevolen voor eindpolijsttoepassingen waarbij randbehoud belangrijk is. Aanbevolen als alternatief voor colloïden en doeken voor het uiteindelijke polijsten van SEM- en TEM-monsters. Siliciumcarbide- en siliciumdioxide-lepfilms bestaan uit een mylar-film bedekt met hars die siliciumcarbide- of siliciumdioxidedeeltjes bevat. Ze worden aanbevolen voor fijnslijp- en leptoepassingen waarbij randbehoud belangrijk is. Functies: * Micron-gegradeerd premium schuurmiddel om nauwkeurige afwerkingen te produceren * Precisierug voor uniformiteit en vlakheid van het monster * Bestand tegen water, olie en de meeste oplosmiddelen * Gebruik voor niet-ingekapselde monsters * Niet aanbevolen voor toepassingen met powerheads Diameter: 4" 6" 8" Montage: PSA (Pad) Ruwheidsgraad: Mesh _cc781905-5cde-3194-bb37819d05-5bad5cfde-136 -bb3b-136bad5cf58d_ :15000 Deeltjesgrootte/µm: 0,3 Type: Silicium Dioxide Lappende filmschijf

Detonation nanodiamond (DND) / ultra-fine diamond (UFD) — ultra-hard, high-purity nanoparticles for polishing, lubrication, composites, and advanced optics. Detonatie Nano-diamantpoeder Huis / Lappend polijstpoeder / Detonatie Nano-diamantpoeder / Hans detonatie Nano-diamant (DND), ook wel Ultrafijne diamant (UFD) genoemd, wordt gemaakt van de dissociatieve koolstof in Hoge druk en temperatuur tijdens detonatie door Oxygen-Negative Explosive. Het is anders dan de gesynthetiseerde diamant, de vorm van DND is een bol zonder scherpe randen en de microkristalgrootte is ongeveer 4-7nm. Functies 1. Hoge zuiverheid en metaalverontreiniging is lager dan 10PPM; 2. Hoog specifiek oppervlakte is ongeveer 300-420 m²/g; 3. Goede dispersiestabiliteit; 4. Uitstekend super fijn polijstresultaat en oppervlakteruwheid bereiken minder dan 0,2 nm; 5. Uitstekende slijtvastheid, corrosieweerstand, thermische geleidbaarheid en golfdoorlatende eigenschappen. Toepassingen 1. Harde schijf; 2. Smeermiddeladditieven; 3. Toeslag voor composietmaterialen 4. Gegalvaniseerde coating:

High-performance ultra fine polishing powder for precision finishing on glass, metal, ceramics, and semiconductors. Ideal for flexible lapping applications. Ultra fijn polijstpoeder Huis / Lappend polijstpoeder / Ultra fijn polijstpoeder / Ultrafijn polijstpoeder heeft drie soorten ultrafijn polijstpoeder, siliciumcarbide, aluminiumoxide en ceriumoxide, geproduceerd door geavanceerde sorteertechnologie. Ze worden gekenmerkt door een hoge zuiverheid, uitstekende kristalvorm en uniforme deeltjesgrootteverdeling. Deze worden meestal gebruikt door optica, communicatie, beeldschermen, halfgeleiders, gegevensopslagindustrie en dergelijke. Functies 1. Fijne deeltjesgrootte en instelbare polijsteffectiviteit kunnen aan verschillende polijstvereisten voldoen; 2. Gecentraliseerde deeltjesgrootteverdeling en goede kristalvorm kunnen in korte tijd een nauwkeurig polijstresultaat bereiken; 3. Hoge zuiverheid kan voldoen aan het verzoek van magnetische recordmaterialen zoals harde schijf en halfgeleidermaterialen zoals silicium en andere hightech-velden. Toepassingen 1. Halfgeleider: 2. Optisch glas en kristal 3. Harde schijf 4. LCD-scherm 5. Optische communicatie

We offer abrasive lapping films and papers in sheets, discs, rolls and belts with diamond, aluminum oxide, silicon carbide and cerium oxide coatings in a wide range of particle sizes from mesh size down to sub-micron. FAQ Frequently asked questions General What is the proper technique for using diamond lapping film? To use diamond lapping film, peel a strip from the sheet and adhere it to the platen, ensuring it is centered. Unlike diamond stones, use an edge-trailing stroke (up and away) with the lapping film. Which materials are preferred for diamond lapping? Boron carbide is a preferred abrasive for diamond lapping, especially for hard materials such as tungsten carbide and tempered steel. This abrasive is known for its aggressive cutting and high stock removal capabilities, making it ideal for lapping the hardest materials, including tungsten carbide and titanium carbide. What is the process of diamond lapping? Diamond lapping is a material removal method using fixed diamond abrasive particles which produce long chips of the component material . The process of making chips with a sharp abrasive grain produces the lowest amount of deformation in the component while giving the highest removal rate. Is aluminum oxide better than diamond lapping film? When comparing aluminum oxide to Diamond lapping film for precision polishing , diamond lapping film is generally considered superior. Here are the key reasons why Diamond lapping film is better than aluminum oxide: Superior Hardness : Diamond is the hardest known material, significantly harder than aluminum oxide . This allows Diamond lapping film to cut through materials more efficiently and maintain its cutting ability over a longer period. Higher Cutting Performance : The superior hardness of Diamond translates to higher cutting performance. Diamond particles can cut and abrade materials more quickly and effectively than aluminum oxide , which results in faster material removal rates and more efficient polishing processes. Durability : Diamond lapping film is more durable due to the inherent toughness of Diamond particles. This means the abrasive surface remains effective for a longer period, reducing the need for frequent replacements and thus offering better cost-effectiveness over time. Precision and Consistency : Diamond lapping film provides a more consistent and precise finish. The uniformity of Diamond particles and their ability to maintain sharpness ensures a uniform surface finish, which is crucial in high-precision applications. Versatility : Diamond lapping film can be used on a wider range of materials, including very hard substrates such as ceramics, carbide, and hardened steels. aluminum oxide , while effective, may not perform as well on these tougher materials. Reduction in Surface Damage : The cutting efficiency and sharpness of Diamond particles help in reducing the heat generated during the lapping process, which minimizes the risk of surface damage such as burns or cracks. In summary, Diamond lapping film offers better performance, durability, and precision compared to aluminum oxide , making it the preferred choice for high-precision and demanding polishing tasks. What material is best for lapping? Diamond slurries are often used in precision lapping applications, as they offer several advantages over traditional abrasives such as Alumina or silicon carbide . Diamond particles are harder and more durable than these traditional abrasives, allowing for faster material removal and improved surface finish. What is diamond lapping fluid made of? Diamond lapping fluid , also known as water-soluble coolant, is commonly used in conjunction with diamond lapping films and other precision polishing tools. This type of coolant enhances the water with additional features to improve the lapping process. Here are the details, benefits, and some challenges associated with using Diamond lapping fluid : Benefits of Diamond Fapping Fluid Enhanced Cooling : Diamond lapping fluid improves the cooling efficiency of water, helping to dissipate heat generated during the lapping process. This prevents overheating and potential damage to both the workpiece and the lapping film. Lubrication : The fluid provides better lubrication than plain water, reducing friction between the abrasive film and the workpiece. This helps in achieving a smoother finish and extending the life of the lapping film. Particle Suspension : It helps to suspend the abrasive particles and swarf (material removed from the workpiece) in the coolant, preventing clogging of the lapping film and ensuring a consistent cutting action. Corrosion Protection : Many Diamond lapping fluid s contain additives that protect both the workpiece and the lapping equipment from corrosion, especially when working with metals. Challenges of Using Diamond Fapping Fluid Concentration Management : As the water component of the coolant evaporates, the concentration of the fluid increases. This can lead to changes in the performance of the fluid, potentially causing issues with consistency and effectiveness. Regular monitoring and adjustment are necessary to maintain the correct concentration. Frequent Testing : To ensure optimal performance, the concentration of the lapping fluid needs to be tested frequently. This adds an extra maintenance step and requires the use of appropriate testing equipment and methods. Potential Residue : If not managed properly, the evaporation of water can leave behind residues that may affect the lapping process or the final finish of the workpiece. Storage and Handling : Proper storage and handling are required to maintain the efficacy of the Diamond lapping fluid . Contamination or improper storage conditions can degrade the fluid’s performance. Best Practices for Using Diamond Fapping Fluid Regular Monitoring : Implement a regular schedule for testing the concentration of the lapping fluid and adjusting it as necessary. Use a refractometer or other suitable devices to measure concentration accurately. Top-Up with Water : Regularly top up the fluid with water to compensate for evaporation and maintain the appropriate concentration. Clean Work Environment : Ensure that the work environment and all equipment used are kept clean to prevent contamination of the lapping fluid. Proper Storage : Store the fluid in a cool, dry place and keep containers sealed when not in use to prevent contamination and evaporation. By following these best practices, the advantages of using Diamond lapping fluid can be maximized while mitigating the potential challenges associated with its use. What is the primary objective of the lapping process? The primary objective of the lapping process is to produce parts with a uniformly smooth and flat surface. Lapping achieves this by removing material from the high points of the part's surface through contact with a flat lap plate. What is the recommended method for cleaning a diamond lapping plate? To clean a diamond lapping plate, evenly spread Bar Keepers Friend on the surface using a nylon brush. Gently scrub the plate with the brush for one to two minutes. Rinse the plate with warm water while continuing to scrub gently. What is the typical material removal rate in the lapping process? The lapping process is gentler than honing and removes significantly less surface material. Typically, lapping removes only 0.0005” to 0.005” (0.0127 mm to 0.127 mm) of material. Therefore, the workpiece should be as close to the final size as possible before lapping, often achieved through double-disk grinding.

Abrasive Lapping film/Polishing Film is coated with precisely graded minerals (such as diamond, aluminum oxide, silicon carbide, silicon oxide, cerium oxide and so on) on the high strength polyester backing to provide a uniform, consistent finish. With or without PSA (Pressure Sensitive Adhesive) backing, and available in sheets, discs and rolls for meeting the use on any type of polishing equipment. These films are widely used in the polishing of fiber optic connectors, roller, hard disk and metal parts etc. OOPS! There’s Nothing Here. The page you’re looking for can’t be found. Check the URL, or go back to the homepage. Back to Homepage

Roll polishing. The long lasting product is used to complete the product process and produce consistently superior surface finish. Cleaning: use plenty of DI water to clean the film between each use, then wipe the film with a lint-free wipe. Siliciumcarbide lepfilmschijf Huis / Lapping Film Polijstschijf / Siliciumdioxide lepfilm / Siliciumdioxide lepfilmschijf bestaat uit een mylar-film bedekt met hars die siliciumdioxidedeeltjes bevat. Het wordt aanbevolen voor eindpolijsttoepassingen waarbij randbehoud belangrijk is. Aanbevolen als alternatief voor colloïden en doeken voor het uiteindelijke polijsten van SEM- en TEM-monsters. Siliciumcarbide- en siliciumdioxide-lepfilms bestaan uit een mylar-film bedekt met hars die siliciumcarbide- of siliciumdioxidedeeltjes bevat. Ze worden aanbevolen voor fijnslijp- en leptoepassingen waarbij randbehoud belangrijk is. Functies: * Micron-gegradeerd premium schuurmiddel om nauwkeurige afwerkingen te produceren * Precisierug voor uniformiteit en vlakheid van het monster * Bestand tegen water, olie en de meeste oplosmiddelen * Gebruik voor niet-ingekapselde monsters * Niet aanbevolen voor toepassingen met powerheads Diameter: 4" 6" 8" Montage: PSA (Pad) Ruwheidsgraad: Mesh _cc781905-5cde-3194-bb37819d05-5bad5cfde-136 -bb3b-136bad5cf58d_ :15000 Deeltjesgrootte/µm: 0,3 Type: Silicium Dioxide Lappende filmschijf