Hand Held Concrete Cutting Diamond Saw Blade Portable

1. High efficiency and long lifespan
2. Competitive price and stable quality
3. Production capacity: 20,000 pieces/month
4. Various blade sizes and types available
5. Good cutting result: smooth cutting, flat surface and even size

Hand Held Concrete Cutting Diamond Saw Blade Portable

Experienced manufacturer of Hand Held Concrete Cutting Diamond Saw Blade Portable, we supply diamond segments, diamond saw blades, diamond wire saw and diamond grinding tools for stone factories, quarries and wholesalers all over the world.


For multi blade cutter, gang saw blade, bridge cutting machine, single arm cutting machine, manual handing machine, able cutting machine, etc.Designed for various hardness stone (soft, medium hard and very hard stones) cutting: granite, marble, sandstone, onyx, limestone, travertine, quartz stone, artificial stone, andesite, volcanic, lava stone, basalt, microcrystal stone, blue stone, dolomite and construction materials (concrete, tile, ceramic, asphalt, floor) to reduce segment cost and increase cutting efficiency.

Packaging and Shipping

Inner packing: a diamond saw blade is covered by antirust paint and plastic, then packed in a paper box; outside packaging is according to the transport way, if by air, we recommend carton package which will reduce the weight; if by sea, we recommend crate which is seaworthy. Other packaging is also available upon your request.
Urgent order with less weight or samples, courier service is recommended;
Normal (regular) order which weight over 45kgs, delivering by air is recommended;
Big diameter saw blades or heavy weight products, shipping by sea is recommended.
Edgestone will offer advices according to the actual order requirements.

Our Services

1. Fine raw materials are used for processing, high grade raw materials, imported cobalt powder and high-quality diamond single crystals, to ensure the best performance of our products.
2. Customized designs are available. We can also help customers design and develop new products, and adjust cutting efficiency and lifespan upon your request.
3. Knowledgeable sales representatives are available to reply all inquiries and e-mails within 24 hours.
4. Every details will be confirmed with you before production.
5. Each processing would be completed by our skillful worker.
6. Strict quality management system. During the whole production process, from raw material choosing, processing to packing, our quality assurance people will strictly control each single and every process to guarantee quality standards and punctual delivery.
7. Detailed and clear pictures will be sent before packing and loading for you.
8. We will keep you update of the order and shipping status till you get the products smoothly.

If you're interested in Hand Held Concrete Cutting Diamond Saw Blade Portable, just feel free to contact us, we will keep providing excellent service and good quality products for you.

Contact Info.

Sales Manager: Adam Li
Phone/WhatsApp: 0086-15805032000
Skype: adam-li@outlook.com

classifies industrial diamonds into four grades according to their quality: A—a low-quality diamond; AA, a medium-quality diamond; and AAA, a high-quality diamond: AAAA Super Diamond. The technical conditions of the quality level include the following aspects. 1 Crystal form: Preferably octahedron and decahedron. 2 Internal structural defects: cracks, inclusions, etc. Less defects, good quality. 3 Transparency: Diamond has light transmission ability, the more transparent, the better the quality. 4 Surface state: The surface is free from burrs and smooth. The former Soviet Union classified natural industrial diamonds by shape selection and pretreatment: Xv complete crystals of different shapes, equivalent to AAA, for table bits. XXIV A different degree of round diamond, equivalent to AA, is commonly used for drill gauges. Xxx, r, etc. Accumulated broken diamonds, commonly used in pregnant bit. XXXVI polished diamonds, equivalent to xv. The degree of diamond shape of the article is shown in Figure 2-6.Show. The crystal form factor c = αl b , where α is the length of the major axis of the grain and b is the length of the minor axis of the grain. When αlb Bean I. 5, it is called isointegral diamond, and when αlb = I, it is round diamond. The grading standards for natural diamonds in China's geological system are shown in Table 2-8. Fourth, natural diamond granularity  Natural diamond grain size is usually expressed in grains/carat (st/h, let = 0.2 g). The natural diamond size is divided into several grades, see Table 2 - 9 o  Table 2 -9 Granular diamond grade  Material Rating Granularity (st/ct) Using Fan | Velvet Note Come and grain 5 20 table with drill, saw blade Medium grain 20 40 table with drill and saw blade Fine grain 40 100 table with drill, saw blade More fine grain 100 1 000 bits and two bits for pregnant inserts are currently expanded to 2 000 3 OOOst/ct   Table 2 - 10 Diamond Size and Particle Size Comparison Table  Particle size (st/r.L) 4 6 8 10 15 20 25 Particle size (mm) 3. 30 2. 69 2.49 2 .41 2.00 1. 80 I .65 Granularity (st/ct) 30 40 50 60 80 100 Particle size (mm) 1.50 1.42 1.33 1.25 1.15 I. 10      Section III Synthetic diamond  Artificial diamond, in essence, uses artificial methods to create certain physicochemical conditions that make carbon of non-diamond structure (such as graphite) is transformed into a diamond structure carbon (diamond) that is normally present. Obviously, its synthesis theory and technology involve condensed matter physics, high pressure physics, materials science, mechanical engineering, chemistry, metallurgy and other disciplines, with interdisciplinary and The nature of the project.   Hand Held Concrete Cutting Diamond Saw Blade Portable  First, the mechanism of graphite transformation of diamond  Both diamond and graphite consist of carbon and are all isomeric, so diamond and graphite can be converted to each other under suitable physicochemical conditions. In order to better achieve the conversion of graphite into diamond, one must first understand the atomic structure of graphite. From Figure 2-8 we can see that graphite is composed of three kinds of bonds. A carbon is surrounded by three carbon atoms, forming a hexagonal planar network structure; secondly, each carbon atom has one more electron around it, so that a metal bond is overlaid on the planar structure; and the planar network structure is connected by a molecular bond. Diamond carbon atoms are connected by four covalent bonds. As long as the graphite atom structure is transformed into a diamond atom structure, the graphite is transformed into diamond, which is the structure transformation mechanism, as shown in Figure 2-9.     Figure 2-9 Transformation of graphite structure into diamond structure    In fact, the transformation of the graphite structure into a diamond structure results in three sp2 hybrid orbitals and a 2p: orbital interaction into four sp3 hybrid orbitals. The condition is warming and pressurizing. When the temperature and pressure are added to a certain degree, the free electron sp2 is combined with the 2pi'.