Material

Introduction of Rivet Contacts

The rivet contacts are the most practical machine composite part which is available in various materials such as silver or certain silver alloys. The contacts are made from cold bonded in a heading machine to a copper shank rivet backing. Special heading equipment and expertise is used to mechanically bond these two different metals together, both saving money and reducing lead-times. Many industrial applications refer to these as machine composites.

 

Rivet contacts are widely used for different kinds of fields universally from low current fields such as communications equipment to electric power equipment with high cutoff currents. With the developed header machine, dimensional accuracy has been improved to meet a variety of demands.


The Main Introduction of Plastic Magnets

Plastic magnets are an increasingly popular choice for new products, increasing performance or reducing costs. Normally, plastic bonded magnets are compression moulded to net shape and due to the high tolerances achieved, require no further machining. The high magnetic values and reduced size of plastic magnets make them ideal for miniaturization where weight and space are at a premium.

 

In addition to our standard grades, we can offer special blended grades where the remanence and energy product of the magnet is optimised for customer’s specific applications whilst maintaining the same high resistance to demagnetisation and elevated temperature properties as the standard grade. In addition new isotropic and anisotropic powders are becoming available that have been optimised for higher temperatures, high density or low cost applications.


Surgical Cap Making Machine for Medical Fields

Based on Taiwan, TRM machinery is a top leading company that specializes in manufacturing machines that does automation fabricating worldwide. With more than a decade of experiences in the industry, we have surgical cap making machines developed that makes face masks, surgical tie on the face masks, shoe cover, surgical cap, bouffant cap and other nonwoven related products.

 

Most of our surgical cap making machine is being used in medical fields, the covers and protection gears are perfect for supplying hospital needs. We also have raw material slitting machines, unwinding and rewinding machines especially designed for industrial use. With the state of the art equipment and well-trained staff, TRM machinery will provide the best quality machineries for you. Interested in our products? Feel free to contact with us right away!


Brief Introduction of Shielding Finger

The shielding finger stock is made up of a large number of fingers exercising a multitude of points of contact. It is available in various shapes and surface treatments. The mechanical and electrical properties of the beryllium-copper make it an ideal material for applications requiring many operations such as opening doors or access hatches. They are both applied for commercial and military markets and more.

 

The shielding fingers have high resistance to stress relaxation, and good corrosion resistance. They can be plated with many choice of metal finished to ensure their compatibility with any mating surface. They will not burn when affected by radiation. Furthermore, the designers of computers and electronics consumers regard it as an ideal product for EMI shielding over a broad frequency range.

 


To Solve RFI/EMI Problems with Fingerstrip Gaskets

Fingerstrip EMI/RFI gaskets are manufactured beryllium copper (becu) base material, which are the industry standard through the world, and plated by nickel, tin, gold for emi shielding. Starting with the emergence of RFI/EMI problems in the early days of military electronics, the EMI/RFI shielding gaskets have been the choice solution.


The Beryllium Copper fingerstrip range is suitable for enclosures of all sizes and provides excellent EMI/RFI shielding effectiveness due to its inherently higher electric conductivity and strong elastic property as gasket. By sealing gaps through which electromagnetic interference can be transmitted, both ingress and emissions can be controlled. Various plating finishes are available to combat galvanic corrosion where necessary.


Why Should We Have EMI Shielding in the Life?

Any circuit or device that carries an electrical current is a potential source of EMI. The objective in electronic system design is to achieve electromagnetic compatibility between the subsystems in an electronic assembly and between that assembly and other electronic devices that it will encounter in its operating environment.

Any barrier placed between an emitter and a susceptor that diminishes or attenuates the strength of the potential interference qualifies as an EMI shielding.

The EMI shield effectiveness of an enclosure is a function of material and design, as well as the service conditions. Thus, radiation incident upon an EMI shielding barrier is absorbed, reflected or transmitted. For metal shields and high impedance fields, most of the energy is reflected; if the magnetic field is dominant, absorption is the principal mode of attenuation.


Custom Metal Stamping for Metal Stamping Parts

Ming Chiang Precision employs several production methods, including Four-slide and multi-slide stampings, progressive die stamping, and deep drawing to make metal stamping parts or metal accessories. Our methods are fast, reliable, and multi-functional, producing lightweight parts that deliver great part performance. Ming Chiang Precision also has the ability to produce Threaded, countersunk, numbered, or embossed features on all stamped parts. We engineer all our dies and tools in-house using state-of-the-art EDM and CNC machines. This allows us to maintain high quality and high precision metal stamping parts for worldwide customers.

 

Ming Chiang Precision also offers secondary services such as plating, heat-treating, powder coating, and stress relieving depending on customer requirements. Auto, soldier, reel-to-reel, tape and reel, and bulk packaging are available. As with everything we do at Ming Chiang, quality control and quality enhancement are crucial parts of our custom metal stamping processes.


Plastic Recycling Machine for Waste Recycling

In the European Union alone, more than 47 million tons of waste plastic is produced each year. Of this, around 13% is recycled by the plastic waste recycling machine. A further 18% is burned to access its potential energy. The remainder contributes to the ever expanding problem of landfill. Additionally, there is carbon cost of transportation.

The plastic waste recycling machine provides complete and long lasting recycling solutions to turn waste into new, reusable resources with proven technologies. The equipment used for recycling the waste material is manufactured at our sophisticated infrastructure, using premium quality raw material. These are stringently tested on several parameters to ensure the delivery of a flawless range to customers. Furthermore, we also provide customized solutions to clients as per the specifications detailed by them to meet their varied requirements.


Introduction of Polycarbonate Sheet

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The polycarbonate sheet is a premium grade with proprietary UV protection, offering excellent weathering and resistance against yellowing and loss of light transmission of the polycarbonate sheet in external applications - this provides a significant advantage over cheaper polycarbonate sheets.

Polycarbonate sheet provides extremely high impact resistance making it particularly useful for use in areas where there is a risk of damage or vandalism. With good formability, polycarbonate sheet can also be used for skylights, covered walkways, roof lights, roof domes and barrel vaults.

Cut to size polycarbonate sheet is also ideal for windows, replacement greenhouse glass, bus shelters, polycarbonate machine guards, boat & car windows, and other glazing applications.


DIY Your Own Screen Printing

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Nowadays, possessing one designed and featured t-shirt is universal and attractive. There are several companies providing customized services to customers; however, the price is expensive to purchase one. So, it gets more on the rage that we do the screen printing for t-shirts for ourselves at home rather than using screen printers. Here comes some simple steps to DIY your own special t-shirt.

 

Step 1: Choose your own design

Firstly, choose your own graphic picture that you want to make screen printing.

Step 2: Stretch the fabric and tighten

Secondly, put your fabric into embroidery hoop and stretch the fabric. Just make sure the fabric is tightened inside both hoops, inner and outer.

Step 3: Draw a design

Turn over the hoop so that the screen is facing upwards. Next, take up your paintbrush and dyestuffs starting drawing.

Step 4: Spread screen filler

In this step, first to do is place the newspaper under the screen. And then apply screen filler at a 45 degree angle all around the screen. Repeat several times until you cover the whole screen. Next, lay the screen completely dried.

Step5: Wash out the dyestuffs

Wash the screen in order to remove dyestuffs from the dried screen. The screen filler would remain on the screen. The ink of your drawing will pass through the screen to create an image on your t-shirt. And dry it completely again.

Step6: Examine your screen

Lay your screen on test paper and place some screen-printing ink onto the top of your screen. Hold squeegee at a 45 degree angle and apply the ink to the whole screen. Turn squeegee over and pull squeegee upwards. Repeat this action about 3 times.

Step7: Screen printing

Print the image on your t-shirt, and it will be done successfully!

 

By above the steps you can design your own unique screen printing at home. And it is redundant to have a product through producers by screen printers. This is the great way to be economic and chic.