Cnc machining tools in Chennai | cutting tools dealers in Chennai

Author: Anitha Sarval

Machining Tool Supplier in Chennai

Before the Industrial Revolution of the 18th century, hand tools were used to cut and shape materials for the production cutting tools dealers in chennai of goods such as cooking utensils, wagons, ships, furniture, and other products. After the advent of the steam engine, material cutting tools dealers in chennai goods were produced by power-driven machines that could only be manufactured by machine tools. Machine tools (capable of producing cutting tools dealers in chennai dimensionally accurate parts in large quantities) and jigs and fixtures (for holding the work and guiding the tool) were the indispensable innovations that made mass production and interchangeable parts realities cutting tools dealers in chennai in the 19th century.

The earliest steam engines suffered from the imprecision of early machine tools, and the large cast cylinders of the engines often were bored inaccurately by machines powered by waterwheels and originally designed to bore cannon. Within 50 years of the first steam engines, the basic machine tools, with all the fundamental features required for machining heavy metal parts, were designed and developed. Some of them were adaptations of earlier woodworking machines; the metal lathe derived from woodcutting lathes used in France as early as the 16th century. In 1775 John Wilkinson of England built a precision machine for boring engine cylinders. In 1797 Henry Maudslay, also of England and one of the great inventive geniuses of his day, designed and built a screw-cutting engine lathe. The outstanding feature of Maudslay’s lathe was a lead screw for driving the carriage. Geared to the spindle of the lathe, cutting tools dealers in chennai the lead screw advanced the tool at a constant rate of speed and guaranteed accurate screw threads. By 1800 Maudslay had cutting tools dealers in chennai equipped his lathe with 28 change gears that cut threads of various pitches by controlling the ratio of the lead-screw speed to the spindle speed.

The shaper was invented by James Nasmyth, who had worked in Henry Maudslay’s shop in London. In Nasmyth’s machine, a workpiece could be clamped horizontally to a table and worked by a cutter using a reciprocating motion to plane small surfaces, cut keyways, or machine other straight-line surfaces. A few years later, in 1839, Nasmyth invented the steam hammer for forging heavy pieces. Another disciple of Maudslay, Joseph Whitworth, invented or improved a great number of machine tools and came to dominate the field; at the International Exhibition of 1862, his firm’s exhibits took up a quarter of all the space devoted to machine tools.

Britain tried to keep its lead in development by prohibiting exports, but the attempt was foredoomed by industrial development elsewhere. British tools were exported to continental Europe and to the United States despite the prohibition,and new tools were developed outside Britain. Notable among these was the milling machine invented by Eli Whitney, produced in the United States in 1818, and used by Simeon North to manufacture firearms. The first fully universal milling machine was built in 1862 by J.R. Brown of the United States and was used to cut helical flutes in twist drills. turret lathe, also developed in the United States in the middle of the 19th century, was fully automatic in some operations, such as making screws, and it presaged the momentous developments of the 20th century. Various gear-cutting machines reached their full development in 1896 when F.W. Fellows, an American, designed a gear shaper that could rapidly turn out almost any type of gear.

The production of artificial abrasives inthe late 19th century opened up a new field of machine tools, that of grinding machines. C.H. Norton of Massachusetts i dramatically illustrated the potential of the grinding machine by making one that could grind an automobile crankshaft in 15 minutes, a process that previously had required five hours.

By the end of the 19th century a complete revolution had taken place in the working and shaping of metals that created the basis for mass production and an industrialized society. The 20th century has witnessed the introduction of numerous refinements of machine tools, such as multiple-point cutters for milling machines, the development of automated operations governed by electronic and fluid-control systems, and nonconventional techniques, such as electrochemical and ultrasonic machining. Yet even today the basic machine tools remain largely the legacy of the 19th century.