Different Dyeing Methods for Textile Dyeing

Textile dyeing, which is color applied to fabric by different methods of dyeing for different types of fiber and at different stages of the textile production process. Dyeing can be done during any stage in the textile manufacturing process. Textiles may be dyed as fiber, yarn, fabric, or garments, depending upon the type of the fabric or garment being produced.

 

These methods include:

 

  1. Direct Dyeing

When a dye is applied directly to the fabric without the aid of an affixing agent, it is called direct dyeing. In this method the dyestuff is either fermented (for natural dye) or chemically reduced (for synthetic vat and sulfur dyes) before being applied. The direct dyes, which are largely used for dyeing cotton, are water soluble and can be applied directly to the fiber from an aqueous solution. Most other classes of synthetic dye, other than vat and sulfur dyes, are also applied in this way.

 

  1. Stock Dyeing

Stock dyeing refers to the dyeing of the fibers, or stock, before it is spun in to yarn. It is done by putting loose, unspun fibers in to large vats containing the dye bath, which is then heated to the appropriate temperature required for the dye application and dyeing process.

 

Stock dyeing is usually suitable for woolen materials when heather like color effects are desired. Wool fiber dyed black, for example, might be blended and spun with un-dyed (white) wool fiber to produce soft heather like shade of grey yarn.

 

Tweed fabrics with heather like color effects such as Harris Tweed are examples of stock dyed material. Other examples include heather like colors in covert and woolen cheviot.

 

  1. Top Dyeing

Top dyeing is also the dyeing of the fiber before it is spun in to yarn and serves the same purpose as stock dyeing – that is, to produce soft, heather like color effects. The term top refers to the fibers of wool from which the short fibers have been removed. Top is thus selecting long fibers that are used to spin worsted yarn. The top in the form of sliver is dyed and then blended with other colors of dyed top to produce desired heather shades.

 

  1. Yarn Dyeing

Yarn dyeing is the dyeing of the yarns before they have been woven or knitted into fabrics. Yarn dyeing is used to create interesting checks, stripes and plaids with different-colored yarns in the weaving process. In yarn dyeing, dyestuff penetrates the fibers in the core of the yarn.

 

There are many forms of yarn dyeing:

  • Skein (Hank) Dyeing
  • Package Dyeing
  • Warp-beam Dyeing
  • Space Dyeing

 

  1. Skein (Hank) Dyeing

Skein dyeing consists of immersing large, loosely wound hanks (skeins) of yarn into dye vats that are especially designed for this purpose. Soft, lofty yarns, such as hand knitted yarns are usually skein dyed. Skein dyeing is the most costly yarn-dye method.

 

  1. Package Dyeing

In package dyeing the yarn is wound on a small perforated spool or tube called a package. Many spools fit into the dyeing machine in which the flow of the dye bath alternates from the center to the outside, and then from the outside to the center of the package. Package dyed yarns do not retain the softness and loftiness that skein-dyed yarns do. They are however satisfactory and very widely used for most types of yarns that are found in knitted and woven fabrics.

 

  1. Warp Beam Dyeing

Beam dyeing is the much larger version of package dyeing. An entire warp beam is wound on to a perforated cylinder, which is then placed in the beam dyeing machine, where the flow of the dye bath alternate as in the package dyeing. Beam dyeing is more economical than skein or package dyeing, but it is only used in the manufacture of woven fabrics where an entire warp beam is dyed. Knitted fabrics, which are mostly produced from the cones of the yarn, are not adaptable to beam dyeing.

 

  1. Piece Dyeing

The dyeing of cloth after it is being woven or knitted is known as piece dyeing. It is the most common method of dyeing used. The various methods used for this type of dyeing include jet dyeing. Jig dyeing, pad dyeing and beam dyeing.

 

  1. Garment Dyeing

Garment dyeing is the dyeing of the completed garments. The types of apparel that can be dyed are mostly non-tailored and simpler forms, such as sweaters, sweatshirts, T-shirts, hosiery, and pantyhose. The effect on sizing, thread, zippers, trims and snaps must be considered. Tailored items, such as suits or dresses, cannot be dyed as garments because the difference in shrinkage of the various components and linings distort and misshapen the article.

 

Garment dyeing is done by placing a suitable number of garments (usually about 24 sweaters or the equivalent, depending on the weight) into large nylon net bag. The garments are loosely packed. From 10 to 50 of the bags are placed in large tubs containing the dye bath and kept agitated by a motor – driven paddle in the dye tub. The machine is appropriately called a paddle dryer.

 

Of these Direct dyeing and Yarn Dyeing methods are the most popular ones.

 

Tong Geng Enterprise Co., Ltd. is specializes in design and manufacturing of dyeing equipment for fabric dyeing and yarn dyeing. With over 30 years of solid experience, Tong Geng is one of the leading and skilled suppliers in the world. If you are interested in learning more information about textile dyeing and dyeing machines, welcome to browse our website or contact with Tong Geng directly!

 

Article Source: http://textilelearner.blogspot.tw/2011/12/methods-of-dyeing-different-dyeing.html

 

Reverse Osmosis Water Purifier

The importance of clean and potable water can’t be undermined in any way. We all know the importance of water and how essential it is for our survival. The fact that our earth comprises of 70% water is not enough to quench our thirsts as another fact that only a little portion of this huge percentage is actually fit for consumption. Availability of clean drinking water has become a luxury that not all of us are available to enjoy.

 

The conventional source of drinking water has been tap water. But tap water comes with a lot of risks and health hazards as it contains impurities like phosphates, nitrates and heavy metals. The problem that lies in front of us is: how to quench our thirsts? Technology has gifted us with a lot of inventions that have made our lives much easier and simpler. Another gift of technology is RO water purifier.

 

Water purified from RO water purifier is relatively pure and also odorless and colorless. Reverse osmosis water purifier gives you water that is free if dissolved minerals. Equipped with the special property of being able to actively absorb toxic substances from water and eliminate them, Reverse osmosis water purifier gives you water which is clean and pure and absolutely fit for drinking.

 

Fluoride, a harmful chemical that is also responsible for yellowing of teeth is present in considerable quantities in tap water but water purified from RO water purifier is free of this chemical. The process of reverse osmosis removes hardness from water giving soft water which is apt for consumption. Reverse osmosis water is also free from sulfates, arsenic, aluminum, radioactivity, salts, detergents, bacteria and most viruses.

 

We recognize the advantage of reverse osmosis and thereby fully equip this technology in our water purifiers. We understand the importance of pure drinking water in the present day scenario where the quality of water is deteriorating each day and we often have to compromise on the quality of water. Triwin RO water purifiers provide you clean drinking water that is absolutely fit for consumption.

 

Established in 1984, Triwin accumulated years of experience in manufacturing products, such as water purifier and other water treatment equipment. We always fulfill the needs for top quality products and equipment in the water treatment industry worldwide. Learn further information about RO water purifier series, please do not hesitate to contact with Triwin directly!

 

Article Source: http://EzineArticles.com/749951

What is a Globe Valve and Where are They Used?

Globe valves are linear motion valves that are widely employed to stop, start and throttle flow. In this article, we will have a simple introduction about globe valve function, advantages and disadvantages, and common applications of globe valves.

 

Globe valves are designed with a stem that moves up and down to regulate flow inside the valve, a disc (ball, composition, or plug) and seat, which is generally screwed into the valve body. Seats are designed in plane parallel or inclined to the line of the flow. These types of modulating valves are most commonly used to valve throttle, open or close flow in a system. The three basic globe valve body designs are Wye, Tee and Angle.

 

Advantages and Disadvantages of Globe Valves

 

Advantages:

 

  • Good shutoff capability.
  • Moderate to good valve throttling capability.
  • Shorter stroke (compared to a gate valve).
  • Easy to machine or resurface the seats.
  • Can be used as a stop-check valve.

 

Disadvantages:

 

  • Higher pressure drop (compared to a gate valve).
  • Requires greater force or a larger actuator to seat the valve.

 

Typical Globe Valve Applications

 

The following are some of the typical applications of globe valves:

 

  • Cooling water systems.
  • Fuel oil systems.
  • Feedwater or chemical feed systems.
  • Boiler and main steam vents and drains.
  • Turbine lube oil system and others.

 

NICO Valves Corp. is a leading industrial valve manufacturer in Taiwan and China and has been exporting this line of products for more than 20 years to all over the world.

 

We have full qualification for manufacturing widest kind of industrial valves in all common sizes & customized sizes, and available in ANSI, JIS, DIN standards. Its products includes: Gate, Globe, Check, Ball Valve, Knife Gate Valve, and Y-strainer. If you need more information about globe valves and other industrial valve series, welcome to browse NICO’s website or contact with us directly for further details!

 

 

Article Source: http://www.bmengineering.co.uk/news/globe-valves/what-is-a-globe-valve-and-where-are-they-used

 

Flat Bed Lathe vs. Slant Bed Lathe

The lathe is piece of equipment that is used for turning, drilling and shaping certain materials including metal, glass and wood. There are two types of lathe machines based on bed alignment: The flat bed and slant bed lathe. And what are the differences between the two…?

 

Flat Bed CNC Lathe

 

As its name suggests, it is a flat CNC lathe where you are required to place materials accurately to avoid mistakes in the cutting process. It can be used for light and heavy metal machining, delivering a precise finish for the working material.

 

Slant Bed CNC Lathe

 

Slant bed lathes are aligned sideways. They produce a Z-axis movement. However, they only function at a certain speed throughout the machining process.

 

The Differences between Flat Bed and Slant Bed Lathes

 

Flat Bed Lathe:

It can handle both light and heavy duty materials with exact precision. Flat bed lathe has a high range of machining, stability and productivity. Only skilled professionals are allowed to handle this type of lathe because it is a heavy-equipped machine. It may cause injury if not properly operated.

 

Slant Bed Lathe:

It is advisable to use for light materials only. Slant bed lathe has a lower range of productivity due to its machining capacity. It is a user-friendly lathe where machining is a lot easier.

 

Similarities of Flat Bed and Slant Bed Lathes

 

Flat bed and slant bed lathes are both used for:

 

  • Mining industries
  • Shipping materials and equipment
  • Different parts of machinery
  • Industrial materials
  • Power plant materials and equipment

 

In general, both flat bed and slant bed lathes are useful for achieving a precise finish. The lathe you should use will depend greatly on the material you are working with.

 

With years of efforts of research and development, the Shun Chuan’s slant bed CNC lathe will offer the unique rigidity. Our slant bed lathes enhance heavy duty, precision and stability. With its excellent machine structure, you can handle heavy cutting with more ease than ever before. If you need further specification and details about slant bed lathe or other CNC lathes, welcome to browse Shun Chuan’s website or contact with us directly!

 

Article Source: http://www.cncturning.co.uk/blog/blog/flat-bed-vs-slant-bed-cnc-lathes/

 

What Are the Different Types of CNC Machining Tools?

The most common types of CNC machining tools are the vertical milling machine, lathes, and drilling or boring machine. Other types include EDM machines, laser cutting machines, and water jet profilers. These are just a few of the examples used in the manufacturing industry today.

 

The acronym CNC stands for “computer numerical controlled.” In these tools, a computer or “controller” drives the machine according to G-code instructions. The machines are designed to quickly perform repetitive tasks accurately at high speeds. Common tasks include cutting, grinding and drilling.

 

Fabrication of modern CNC machining tools began as early as the late 1940s by John T. Parsons to produce wing sections for the United States Air Force. Today, the range of products made with these machines is vast. CNC machining tools produce highly specialized parts for machine and automotive industries around the globe. Other types of industries that utilize CNC machining tools are the woodworking and granite or stone industries.

 

The main component of CNC machining tools is the machine control unit. This unit reads and decodes instructions, generates axis commands and feeds motion commands to circuits that drive axis mechanisms. It also controls the spindle, coolant and tool change functions. Other components of CNC machining tools are a program input device, which installs a part program into the CNC control, and a part program, which controls the movement and functions of the machine.

 

Various types of machinery use CNC as a controller. A lathe or turning center is a common type of CNC machining tool. This type of machine is capable of performing various lathe-cutting operations automatically. Laser cutting CNC machining tools are another type, and use a focused beam of laser light to cut a wide range of materials.

 

CNC EDM machining tools operate by using a thin wire as an electrode. The resulting erosion caused by the arc is what does all the cutting. CNC controls the table movement, as the wire remains stationary during operation.

 

A machining center is the latest type of CNC machining tool. It is capable of performing various tasks such as milling, boring and drilling in a single setup. Pallets or worktables automatically exchange work pieces as needed. The machining center automatically changes tool heads to perform the specific tasks as needed.

 

OCEAN Technologies Co., Ltd. is the manufacturer of specializing in CNC EDM machines. We provide EDM machines include micro EDMs and CNC drilling EDMs…etc. If you are interested in learning further details about OCEAN’s EDM machine series, welcome to browse our website or contact with us directly to obtain more information!

 

Article Source: http://www.wisegeek.com/what-are-the-different-types-of-cnc-machining-tools.htm

Understanding CNC Collet Chucks

When considering the purchase of a CNC lathe or turning center, it is important to ensure that the workholding system is matched to both the machine’s capabilities and the type of work that it will be doing. For example, the workholding system for a large-bore oil-patch lathe that will be machining pipe threads is probably not going to be the right solution for a high-speed multitasking machine making hip joints.

 

Many CNC lathes and turning centers come equipped from the factory with a standard workholding system consisting of a three-jaw power chuck, a hydraulic actuating cylinder and a drawtube. The hydraulic cylinder is fixed to the rear end of the machine’s spindle, while the chuck is mounted to the front side, or working side, of the spindle. These two components are typically connected together via the hollow steel drawtube that passes through the spindle bore.

 

The opening and closing of the chuck jaws is accomplished through the axial motion of the hydraulic actuator’s piston. As the piston slides back and forth, the drawtube moves in unison, driving a wedge-shaped plunger within the chuck body. This plunger converts axial motion to radial motion, causing the jaws to open and close. The amount of gripping force that the jaws apply to a workpiece is directly related to the actuator output force and is easily regulated with a pressure valve.

 

As a universal workholding device, a three-jaw chuck functions well for many common turning applications. It can hold a range of part sizes is capable of operating at reasonable rotational speeds and achieves good accuracies—particularly when the jaws are bored in place.

 

However, there are many applications where a jaw chuck is not the best workholding option, which has led to the development of a range of alternative solutions. The most common among these is the CNC collet chuck.

 

A CNC collet chuck mounts to the working side of a CNC lathe spindle in the same manner as a three-jaw chuck and uses the machine’s existing hydraulic cylinder and drawtube for actuation. The installation of a collet chuck usually requires the fitment of an intermediate adapter between the chuck and drawtube to compensate for thread and position disparities. This adapter is custom machined for the specific lathe/chuck combination and is normally included in the price of the collet chuck.

 

Choosing the Right Collet Chuck

 

Choosing the right collet chuck begins by identifying the spindle nose of the machine on which the chuck will be mounted. All CNC lathe spindle noses follow international standards that clearly define the mounting interface dimensions. Common spindle nose configurations for the North American market include A2-6, A2-8, and 140 mm.

 

The next step is to determine the chuck’s required capacity, based upon the size of the parts that need to be held. For bar feeding applications, it is customary to match, or slightly exceed, the machine’s drawtube bore size.

 

Once the spindle mount and required capacity have been identified, the selection can be further narrowed based on specific features and benefits of the various models, including pullback versus dead-length operation; external clearance dimensions; RPM capability; and setup time requirements.

 

When properly matched to a machine, bar feeder and application, CNC collet chucks provide an economical and effective way of holding material less than 4 inches in diameter. Because collet chucks are generally matched with a bar feeder, some of which have magazine storage and are designed to maintain consistent gripping force at high speeds, they are the workholding choice for lights-out operations.

 

Di Chun Iron Work co., Ltd. is the experienced collet chuck manufacturer in the industry. We also provide a variety of quality power chucks, hydraulic cylinders, and chuck jaws. If you need more information about collet chucks and more products, welcome to visit our website or contact with Di Chun directly!

 

Article Source: http://www.productionmachining.com/articles/understanding-cnc-collet-chucks

 

What You Need To Know About Fabrics

Are you looking for fabrics? There are two main types of fabrics that you can go with: knitted and woven. Knitted fabrics are created when you intertwine loops of fibers around each other. Knitted fabrics are usually soft and stretchy. Excellent examples of outfits made from knitted fabrics are: jumpers, t-shirts and leggings.

 

Woven fabrics on the other hand are created in the same way as carpets and tapestries and they are woven on a loom. A basic weave consists of two thread sets: warp and weft. The warp thread runs vertically while the weft thread runs horizontally. A major characteristic of woven fabrics is that they are crisp, rigid and only stretch diagonally.

 

Fibers Used In Making Fabrics

 

Fabrics are made from different types of fibers. The most common ones are:

 

Natural fibers:

Natural fibers are either plant based or animal products. Plant based fibers include: cotton and linen. Animal products include: wool and silk.

 

Synthetic:

Synthetic fibers include: nylon, acrylic and polyester. In most cases, synthetic fibers are blended with natural fibers in order to add strength and durability. There are some people who add natural fibers in order to make the fibers wrinkle resistant.

 

Hybrid fibers:

These are fibers that can’t be said to be natural or synthetic. A good example is viscose that is derived from plant cellulose. Since cellulose is processed, it can’t be said to be natural-it also can’t be said to be synthetic. Viscose is an excellent substitute for silk. You can also use it instead of wool, cotton or linen.

 

Weight of the Fabric

 

Weight is very important in fabrics as it determines how suitable they will be for a given outfit. Weight also determines how easy you will be able to work with the fabric in order to make your desired clothing.

 

Fabrics can be classified as light, medium or heavy in weight. Lightweight fabrics are those made with fine, light fibers. These fabrics usually weigh 1-3 ounces per yard. Great examples include: chiffon, voile and organza.

 

Medium weight fabrics weigh 4-7 ounces per yard and include: silk, cotton, linen and wool.

 

Heavyweight fabrics weigh over 7 ounces per yard and their thick nature makes them difficult to penetrate with a needle. Great examples are denim and corduroy.

 

Conclusion

 

This is what you need to know about fabrics. When buying the fabrics always ensure that you buy them from a reputable store.

 

Jiunn Jang Textile Co., Ltd. is one of the leading knitted fabrics manufacturers in Taiwan and we can provide different kinds of fabrics to meet your demands. If you need more information about knitted fabric or other industrial fabric, welcome to visit the website of Jiunn Jang Textile or contact with us directly!

 

Article Source: http://EzineArticles.com/9067435

 

Taichung, TAIWAN- TIMTOS 2017 – SHUZTUNG MACHINERY NEW MODEL LAUNCHED – 3D LASER CUTTING, BENDING MACHINE, ROBOT CELL

Shuztung Machinery, a leading company of manufacturing various machinery and automation equipment launching a brand new 3D laser cutting equipment.

 

Brand new 3D laser cutting machine has launched by Shuztung Machinery in 2017.

 

More than 40 years of experiences in machine equipment developing and manufacturing, Shuztung Machinery is one of the leading companies in manufacturing turn-key equipment for bicycles, tube/pipe benders, end forming machines…etc. Machines do not only sell to Taiwanese customers, but also mainly for worldwide markets with high reputation. More than 1000 items are sold around the world.

 

In 2017, Shuztung Machinery has developed a brand new model, RLS-1000, 3D laser cutting machine which is a new innovation system including 8 axes robot system and IPG laser cutting head to be worked for various cutting of angels, curvature, curve, and irregular shapes. For different industries, such as Automotive, Aerospace, Bicycles, Motorcycles, 3D industry, and Conventional industry. For different materials, like carbon steel, CRMO steel, stainless, titanium alloy, aluminum alloy…etc.

 

Together with bending machine and robot for transferring, Shuztung Machinery is demonstrating an auto cell system with 3D laser cutting machine in 2017 TIMTOS exhibition. Welcome to visit us at the show for more information.

 

2017 TIMTOS Exhibition

Date: March 7th to 12th, 2017

Booth: C1200

 

COMPANY NAME: SHUZTUNG MACHINERY CO., LTD

CONTACT PERSON: JOY HUANG

TEL: +886-4-26831886

EMAIL: joy_huang@shuztung.com.tw

WEBSITE: WWW.SHUZTUNG.COM

What Is The Synthetic Brake Fluid?

Synthetic Brake Fluid is easily one of the most neglected fluids in most vehicles around the world. Manufacturers recommend that you change your brake fluid every 3 years. The Brake Fluid possesses lifesaving qualities yet people often check everything except the brake fluid.

 

So, in order to help understand the importance and to find the best brake fluid we will learn about the chemical properties and what is the purpose of brake fluid.

 

All Brake fluid is synthetic hydraulic fluid that helps apply pressure to the brake components.

 

Hydraulic fluids are the mediums used to transfer power throughout hydraulic components. Hydraulic fluids are known for transferring force into pressure which is how your foot applying pressure to your brakes stops your vehicle.

 

This is important because new brake fluid is incompressible, which helps apply quality pressure to the brake mechanism.

 

This is especially important for:

 

Those who commute long distances in warm weather. When brake fluid is overheated it puts your brake mechanism at risk. Once the brake fluid begins boiling the fluid turns into a gas and makes the gas compressible. Leaving your brakes very soft and will lead to “cadence braking”.

 

Cadence braking is also referred to as stutter braking, meaning repeatedly pressing the brake to prevent the brakes from locking up.

 

Most modern vehicles have anti-lock brakes or “ABS” if there is no pressure in the brake lines this system will not provide too much assistance. There are a few braking techniques here.

 

Brake Fluid Types:

So as you may or may not notice there are 4 different types of brake fluids.

 

Viscosity Limit

 

The brake fluid grade comes from the different temperatures that the fluid maintains while it’s stable and the corrosion characteristics. There are more characteristics taken into consideration but we are going to just focus on those two.

 

Viscosity is important to those that have ABS systems because the pressure and volume of fluid is not transferred. This means manufacturer’s suggested viscosity is important to take into consideration.

 

DOT3

 

Is one of two brake fluids that are capable of absorbing water from the air. DOT3 is Glycol Ether Based. The benefit of using Glycol Ether is its high boiling point with a lower molecular weight. DOT3 is a very commonly used synthetic brake fluids because it is the most economical when it comes to meeting the government standards.

 

DOT4

 

Is the next brake fluid that can absorb water through the air, when handling both DOT3 & DOT4, it is important to limit the exposure to the air. Also you don’t to spill any of this on your car because of the chemical properties of the Glycol Ether.

 

Only open the brake fluid reservoir when necessary, make sure you seal the plastic bottle tightly. DOT4 has a high stability and a high boiling point when it’s new.

 

If, water is absorbed into DOT4 the boiling point drops rapidly, even more than DOT3. DOT4 is referred to as a race or performance brake fluid because of the viscosity limit. Therefore when it comes to performance vehicle it is important to change your brake fluid more frequently.

 

DOT5.1

 

Unlike DOT3 and DOT4, DOT5 fluid doesn’t absorb water.

 

DOT 5.1 is also hydrophobic which means none absorbing and is used because of the lower chances of corrosion. DOT 5.1 used to be exclusively in the high performance industry because it requires so much attention.

 

DOT 5 has its benefits of being silicon based, it won’t chip paint if you spill it on your car. When pouring DOT 5 you have to pour slowly. Pouring too fast will create air bubbles and this will put gas in your brake lines which will leave your vehicle at risk.

 

If your vehicle is use as a Sunday driver it almost certainly will have to be bleed after every time you let it sits for a long time. The moisture in the brake lines pool at the lowest point which is normally in the caliper. This once again makes the fluid compressible and puts your vehicle at risk.

 

Min Jung Hong is the professional synthetic brake fluid manufacturer in the industry. We also provide agricultural machinery oil, fuel injector cleaner, MoS2 grease, air compressor lubricants etc. products. If you need more information about synthetic brake fluid, welcome to visit our website or contact with Min Jung Hong directly!

 

 

Article Source: http://www.autodeets.com/top-5-whats-the-best-brake-fluid/

 

Small Hole Drilling Applications

The applications of EDM small hole drilling might be expected to be very limited in scope. Indeed, it would be difficult to think of a more innocuous phrase than small hole drilling, a phrase befitting a niche technology. But this belies the reality of EDM small hole drilling as a machining method used in many industries, industries that value precision and the characteristic of EDM to drill through very tough materials. Its use in gas turbines is the best illustration of what EDM small hole drilling can do in your industry.

 

Gas Turbines and Hole Popping

 

A gas turbine is a highly adaptable type of internal combustion engine that converts the impulse generated by the combustion of compressed air and fuel into useful work. How this work is harnessed determines whether a gas turbine is part of a power generator or a jet engine. A jet engine harnesses the jet of exhaust gases created by combustion for thrust, for example. Common to all gas turbine engines, however, is a turbine located downstream of the combustion chamber, which gives them one of their most important characteristics—they are self-sustaining. The compressor that allows for efficient combustion is powered by the electricity generated by the turbine. But for such a critical role, gas turbines are subjected to an extremely hostile environment of intense heat and centrifugal forces, and it is no surprise that the alleviation of this problem has been a major impetus in gas turbine development.

 

The primary limiting factor in gas turbine development has been heat, and research looking to alleviate the problem of heat has focused on two areas. One area is material science. Since the problem of heat was recognized, many cutting edge alloys have been developed that can resist both the heat and centrifugal forces found inside a gas turbine. But today, this is not enough. Temperatures in modern gas turbine engines can exceed the melting point of even these advanced alloys. This prompted the second wave of gas turbine development, which focused on cooling methods. One of the most prevalent cooling methods is called film cooling. In film cooling, air is directed through holes drilled on the surface of a turbine blade, creating a film on the surface of the blade that acts as a barrier to super-hot exhaust gases. Modern turbine blades combine advanced, adamantine alloys with cooling holes, to which only EDM small hole drilling is suited.

 

The characteristics that suit EDM small hole drillings to applications such as turbine blade cooling hole drilling are its ability to drill through very hard materials, an absence of machine tool pressure, and pinpoint accuracy. An EDM electrode never makes physical contact with its workpiece, which means that an electrode will work regardless of how hard the workpiece is. This lack of physical contact also eliminates machine tool pressure, which can prevent working on a delicate workpiece like a turbine blade, and create burrs and other deformities. This lack of machine tool pressure also contributes to the great accuracy of EDM small hole drilling. Below are just some of the applications of EDM small hole drilling. This list is not comprehensive, but only suggestive of hole popping’s great versatility.

 

Fuel Injection

 

Fuel injection has essentially supplanted carburetion in automotive engines. Due to the superior precision with which fuel can be delivered to a combustion engine, fuel injection engines boast superior fuel economy, less toxic emissions, and require less maintenance than engines using carburetion. A fuel injector uses very small nozzles to atomize gasoline or diesel fuel, ensuring a precise and predictable delivery of fuel. This is why EDM small hole drilling is the favored machining method. A lack of precision in the diameters of nozzle openings could hamper proper functioning of a fuel injector.

 

EXCETEK has manufactured small hole drilling EDM since 2006, the hole drillings have CNC series and for general purpose series. As a leading drilling machine manufacturer, we have a strong R&D team to keep improving our products to meet the highest standard of our clients. If you are interested in learning more applications and specifications about small hole drillings, welcome to contact with Excetek, we are looking forward to corporate with you.

 

 

Article Source: http://www.holepop.com/edm-electrode-tubing/small-hole-drilling-applications/