google-site-verification=MATUvJ1nwY5GKuLX8EjdCFViQJrtBPU_vySYB8HspkI
top of page
Flexible Diamond QRS Disc

Fleksibel diamantslibeskive

Metalbinding modstår slid og ankre Diamantmetalbinding forankrer sikkert mikronklassificerede diamanter til en fleksibel klædebeklædning i et åbent prikmønster. Metalbindinger er kendt for at være hårde og holdbare bindemidler, når det kommer til at klæbe mineral til et underlag. Sådan identificeres de tre mønstre med åben prik Fleksibel diamant-velcro-tøjskive kommer i tre mønstre: D1, D2 og D3. Sådan skelnes der mellem de tre. Mønster D3 er et lille prikmønster designet til finere finish, karakter for klasse D2 er et mellemprikmønster designet til aggressiv skærehandling. Det har forbedret kølervæskeflow, da afstanden mellem punkterne Mønster D1 er det største prikmønster, og det er ideelt til applikationer, hvor belastning er et problem. Hullerne i mineraldesignet gør det muligt for spåner og snavs at undslippe Alt i alt leverer det åbne prikmønster, hvad enten det er tæt eller kondenseret, aggressiv skærehandling, samtidig med at belastningen reduceres. På grund af sin dobbelte styrke og fleksibilitet er den fleksible Diamond Velcro Backing Cloth Disc et godt slibemiddel til dine hårdt slibende materialer. Vigtigere er, at dette diamantslibemiddel med velcro (krog og løkke) bagside for lettere fastgørelse. Krog og løkke-bagside muliggør hurtig og let udskiftning af diske, især når opgaven kræver flere diske i en rækkefølge. Anbefalede anvendelser Glasslibning og kantsøm Hurtig nivellering på stenindlæg, glas, keramik Polering af sten, ædelstene, kompositter, beton og metal Fjernelse af dybe ridser i sten, glas eller kompositter efterladt af tidligere trin Svært at male materialer

Flexible Diamond QRS Disc

24inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

18inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

14inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

4inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

6inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

8inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

20inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

16inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

12inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

5inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

7inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

Flexible Diamond QRS Disc

10inch

Flexible Diamond QRS Disc

The metal bond of this sanding disc exhibits exceptional wear resistance and securely affixes micron-graded diamonds to a pliable cloth backing in an open dot pattern. Metal bonds are renowned for their robust and durable binding properties, particularly when adhering minerals to a backing material.

How to Buy
Request an Equipment  Quote
Ready to buy stuff from Flexible,Request a quote now.
Become a Delare
Becoming a Flexbile Authorized Dealer
Shop
Browse Parts and equpments on our store
Solution
Flexbile solutions to help you tackle any challenge
Reviews
Kommentarer

생각을 공유하시겠습니까?첫 번째 댓글을 작성해보세요.
Frequenstly Answer Qeustion

Q: What are the situations where diamonds are used as cutting tool?

Diamond excels in "hardness" and "heat diffusibility" as a cutting tool material. CBN, with hardness akin to that of diamond diamond is mainly used for cutting ferrous metal thanks to its lower reactivity than diamond with ferrous metal. Both materials can be polished to form "sharp cutting edge."

Q: What are the benefits of diamond tools?

Advantages. Diamond is one of the hardest natural materials on earth; much harder than corundum and silicon carbide. Diamond also has high strength, good wear resistance, and a low friction coefficient. So when used as an abrasive, it has many obvious advantages over many other common abrasives.

Q: How are diamond tools made?

High-quality Diamond cutting tools are manufactured with electrolytic iron powder where it acts as a part of the binder alloy and offers the specific arrangement of the diamond composites on to the surface of the tools.

Q: How do diamond tools work?

The actual grinding work is done by exposed diamond crystals that are held in place by the metal matrix or bond. Each diamond is supported by a bond tail which trails behind the diamond. While the blade rotates through the material, the exposed diamonds on the surface grind the material.

Q: How are diamond tools made?

High-quality Diamond cutting tools are manufactured with electrolytic iron powder where it acts as a part of the binder alloy and offers the specific arrangement of the diamond composites on to the surface of the tools.

Q: How are diamond tools made?

High-quality Diamond cutting tools are manufactured with electrolytic iron powder where it acts as a part of the binder alloy and offers the specific arrangement of the diamond composites on to the surface of the tools.

bottom of page