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Samsung 850 EVO 500GB SSD New Sealed, pictures of actual item also included. Upgrade virtually every aspect of your computer’s performance with Samsung’s new 850 EVO, designed with state-of-the-art SSD advancements including 3D V-NAND technology. As the next generation beyond the bestselling 840 EVO, you’ll get the 850 EVO’s new 3 dimensional chip design that enables superior performance, greater reliability and superior energy efficiency so you can work and play faster and longer than ever before. 3D V-NAND Technology Samsung’s innovative 3D V-NAND flash memory architecture breaks through density, performance, and endurance limitations of today’s conventional planar NAND architecture. Samsung 3D V-NAND stacks 32 cell layers vertically resulting in higher density and better performance utilizing a smaller footprint. Incredible Read/Write Speeds Achieve incredible read/write performance to maximize your everyday computing experience with Samsung’s TurboWrite technology. You can obtain up to 1.9x faster performance than the award-winning Samsung 840 EVO. The 850 EVO delivers class-leading performance* in sequential read (540MB/s) and write (520MB/s) speeds. Plus, gain optimized random performance in all QD for better real-world performance. Enhanced RAPID mode Samsung’s Magician software enables RAPID Mode for up to 2x faster performance* by utilizing unused PC memory (DRAM) as a high-speed cache. The newest version of Samsung Magician supports up to a 4 GB cache on a system with 16 GB of DRAM. Guaranteed Endurance and reliability The 850 EVO doubles the endurance* and reliability** compared to the previous generation 840 EVO** and features a class-leading*** 5 year warranty. With enhanced long-term reliability, the 850 EVO assures longterm dependable performance of up to 30% longer than the previous generation 840 EVO.

Luminous Brand Inverter Luminous Power is a Schneider Electric owned entity Only the best quality Pure sine wave Inverters Inverters can be used for Solar application as well as for off-grid systems Our range starts at 900VA up to 10KVA single phase Specifications of units: DSP based Inverters stand for powerful performance with all round protection. DSP Range Features Digital Signal Processing Technology Sine Wave Output with intelligent real time control Over 200% load cold start by the inverter High speed MOSFET and IGBT protection for excess currents and voltage spikes No humming noise from Inverter as well as from equipment connected to it DC fuse available on the back panel for easy replacement Compact and Reliable SMT based design Smart Charge plus Technology for faster charging and longer battery life High Frequency based design for instantaneous Sine Wave Control Intelligent Thermal Management for longer life and higher reliability Smart Charge+ Technology High Frequency based Pulse Width Modulated Charger with high Input Power Factor Up to 70% electricity saving Charges battery up to two times faster Advanced Battery Management Enhances battery life up to 70% Intelligent Continuous Charging Profile adjustment Negligible Water Loss Regulated Battery Charging from 120V to 290V Protections Overload with Auto Reset. Battery Deep Discharge protection with Reset option Short Circuit Protection Battery reverse polarity protection Phase Reversal Protection Miniature Circuit Breaker for Overload and Short Circuit Protection in Mains Mode instead of Cartridge Fuse Advance Digi Display for Mains On Inverter On Smart Charging Overload/Short Circuit Trip Battery Low Trip Battery Fuse Blown Battery Reverse Connection Contact: UPS Inverter Africa

Annular Cutters 55mm long Annular Cutter: Ø 32 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill"s most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called "dead zone." This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular "Ring-shaped" or "forming a ring". From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 21 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill"s most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called "dead zone." This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular "Ring-shaped" or "forming a ring". From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 23 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill"s most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called "dead zone." This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular "Ring-shaped" or "forming a ring". From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 27 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill"s most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called "dead zone." This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular "Ring-shaped" or "forming a ring". From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 13 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill"s most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called "dead zone." This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular "Ring-shaped" or "forming a ring". From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 24 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside; there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness; location accuracy; hole finish; chip extraction; burrs; and drilling duration. The focal point of these concerns is the twist drill's most noticeable feature; its point. This is not really a point at all; but the tangent line where two cutting angles intersect at the web of the drill; or the so-called 'dead zone.' This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust; or feed pressure; for the cutting edges to push through the material. Compared to traditional tooling (twist drills; etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life; a more accurate hole; a better finish; with no burrs. The cutting edges distribute the cutting load evenly; thus making it faster cutting. Annular cutters convert a smaller area to chips; requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below; explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular 'Ring-shaped' or 'forming a ring'. From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 36 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill"s most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called "dead zone." This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular "Ring-shaped" or "forming a ring". From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 30 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill"s most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called "dead zone." This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular "Ring-shaped" or "forming a ring". From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 32 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill's most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called 'dead zone.' This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular 'Ring-shaped' or 'forming a ring'. From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 21 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill's most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called 'dead zone.' This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular 'Ring-shaped' or 'forming a ring'. From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 23 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill's most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called 'dead zone.' This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular 'Ring-shaped' or 'forming a ring'. From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 45 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill's most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called 'dead zone.' This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular 'Ring-shaped' or 'forming a ring'. From the latin word annulus

Annular Cutters 55mm long Annular Cutter: Ø 14 mm One way to avoid dimpling and deburring while making holes in tube and pipe is to use annular cutters. Because annular cutters are hollow on the inside, there is no dead-zone resistance to overcome. Using a twist drill to make holes in pipe or tubing can prompt concerns about the hole roundness, location accuracy, hole finish, chip extraction, burrs, and drilling duration. The focal point of these concerns is the twist drill's most noticeable feature; its point. This is not really a point at all, but the tangent line where two cutting angles intersect at the web of the drill, or the so-called 'dead zone.' This dead zone causes the surface speed of the cutting edges to drop to zero. The lower surface speed reduces cutting efficiency and requires increased thrust, or feed pressure, for the cutting edges to push through the material. Compared to traditional tooling (twist drills, etc.) annular cutters can multiply your cutting speed by up to 3 times while getting a longer tool life, a more accurate hole, a better finish, with no burrs. The cutting edges distribute the cutting load evenly, thus making it faster cutting. Annular cutters convert a smaller area to chips, requiring less horsepower and thrust. This feature provides longer tool life and less chatter. The slug also offers a higher scrap value than loose chips and shavings. Refer to the picture shown below, explaining why annular cutters are more efficient and faster than twist drill bits. Definition - Annular 'Ring-shaped' or 'forming a ring'. From the latin word annulus