Posted on

The History Of Static Electricity

History

People have dealt with and managed the problems of static electricity for hundreds of years.For example, at the beginning of the fifteenth Century, military fortress, static control program implemented in the treatment of black powder to prevent ignition from electrostatic discharge (ESD). In early 1860, Vin Mills in the American use grounding and flame ionization techniques to eliminate static electricity steel tube and paper in the drying process of network. When American Navy sent the first nuclear submarine in the 50’s of the last century in the Arctic, typical of the antistatic agent used to reduce electrostatic influence to navigation equipment. Over the years, as electronic devices become smaller, faster, therefore, more vulnerable to the destructive effect of static electricity. In order to ensure the normal operation of electrical equipment to the electrostatic, Navy needs some form of control. Because the navy task, static control and increasing awareness of the whole world. Then, static control, industrial development, products and equipment control of electrostatic and electrostatic discharge.

Definitions

According to Grolier’s encyclopedia, Static Electricity is electricity at rest or the accumulation of electric charge, as opposed to an electric current which is the movement of electricity. The flow or movement of people and/or materials in and through the environment causes separation and therefore static electricity. A familiar example is when a person walks across a carpeted floor. Static Electricity is generated simply by the contact and separation of the soles of shoes from the carpeted floor. ESD occurs when the electrostatic charge is transferred from a material that carries the charge to an electrostatic sensitive device. In the example above this ESD is the shock felt after walking across the carpeted floor and then touching a door knob. It is this ESD, which comes in varying degrees, that can be most damaging to electrical devices and other industrial, commercial and consumer products.

Examples

Static Electricity, a natural phenomenon, and consequently ESD are the primary causes of multiple number of problems affecting industry, business and personal life. These problems can be as simple as the shock resulting from walking across a carpet; as costly as the destruction of sensitive electronic components or jamming of machinery; and as dangerous as the ignition of combustible vapors, powders or dust. Typical problems caused by static;

Attraction of dust, dirt and bacteria to all environmental surfaces, as well as to products and product packages Damage or destruction of sensitive electronic components and sub-assemblies during manufacture, testing, packaging, shipping or receiving.

Computer and electronic office equipment data errors memory loss, system failures and other glitches.

Charge generation on surfaces of tote boxes and carriers used to process and store electronic components can create a potential for discharge. Jamming or slipping of paper, plastics or other material during printing, packaging or converting. Ignition of combustible vapors, dust or solvents causing fire or explosion. Irregularities caused by static in high quality printing, heat sealing, silk screening, lamination and other applications.

Work benches and production surfaces in electronic manufacturing and repair facilities will triboelectric charge components, assemblies, or their handling containers in contact and separation with a surface thereby creating a discharge

FACTS

1. Almost any material can generate static electricity. The ability to store or dissipate the charge depends on the type of material

2. Static can cause damage to sensitive devices resulting in instant failure. In contrast, static damage can also go undetected for a period of times resulting in product failure once the product is in service.

3. Electrostatic fields are associated with charged objects

4. The degree of severity of ESD events is contingent upon the type of discharge which occurs.

Electrical Characteristics of Materials

In order to understand how to control the generation of static electricity and the prevention of ESD, one must know the different electrical characteristics of materials that can generate static electricity. There are four varying degrees of electrical resistance.

Conductive Silver Powders allows a charge to flow across or through its volume easily. Surface Resistivity < 106 ohms/sq The miracle of the products have been provide solutions for static control in the past 20 years in India.Our high quality products to help prevent the electrostatic discharge damage sensitive electronic components.Our products include electrostatic prevention personnel grounding, anti-static work surface, anti-static packaging.

Posted on

Carbon Nanotube Will Light Up Your Garage

In the car of the future will not be made of steel or aluminum, and even there are so many high-tech plastic Laden. Originally, CNTs Oil Dispersion, when it comes to steel, 50 times of carbon nanotubes are lighter and stronger. Interestingly, they also for power generation, which means it will change as the object, it illuminates not to use too much energy easily. Well, let us be on carbon nanotubes body future conversation.

Although it is not scheduled for discussion at the “Strategies in Light 2013” symposium it appears to me that many of the top automotive innovators are missing some of the future competition in material science. Right now, many cars are being outfitted with LED headlights, and I’m sure you’ve seen how bright they are, or how bright the taillights are when they light up as you’re driving. Some of the younger generation now, put LED lights on the bottom of their cars which looks very cool, merely for affect.

Still, imagine your car is in a parking lot and you can’t find it. Rather than hitting the car alarm and listening for that chirp, chirp – you can have your car light up the parking lot, and even glow-in-the-dark. This might also be good in your garage. You will not need to replace that light bulb on your Geenie garage door opener when it goes out. All you need to do is hit the alarm disarm button, and the car itself, that is to say the car body will light up your garage for you. Best of all, it will hardly take anything away from your battery, as far as energy is concerned.

Some might say; that’s crazy – but that’s only because they do not understand all the characteristics of these new materials. In fact, the hood over your engine, or your trunk may go opaque while driving, but when you hit a button it becomes transparent so you can see in. In fact, the whole body of the vehicle can be created that way as well. Border crossings for trucks may require that trailers in the future are built of carbon nanotube not only so the trucks get better fuel mileage, but also so that border patrol inspections become very easy to conduct.

If you want to discuss all of this in a higher level, you can contact us think-tank, or shoot me an email. As our car carbon nanotube and cross-country truck will be a reality over the next 5 to 10 years. This will improve fuel mileage, and allow us to many other benefits including I just discussed today. I beg you to consider it.

Posted on

Conductive Silver Powder Common Sense

Conductive Silver Powders are the production of electronic paste, conductive silver paste, LED epoxy conductive adhesive, the main raw material of electromagnetic shielding coatings, conductive coating, conductive ink, conductive rubber, conductive plastics, conductive ceramics etc..

 

According to the use conditions of selection of different silver products, ultrafine silver powder is mainly used in high temperature, conductive paste and electrode paste, silver conductive paste is widely used in capacitors, resistors, potentiometers, thick film hybrid lumped circuit, each field sensitive element and the surface mount technology such as the electronics industry. Flake silver powders are mainly used for low temperature polymer paste, conductive ink, conductive coating.

 

Sheet / spherical silver plated copper powder as a can with the traditional pure silver performance equivalent model of high conductive material, add it to the coating (paint), glue (adhesive), ink, plastic, rubber polymer slurry, etc., can be made of a variety of electrical conductivity, electromagnetic shielding products, widely used in electronics, electrical, communication, printing, aerospace, weapons and other various industrial sectors, electromagnetic shielding conductive fields. Such as computer, mobile phone, electronic medical equipment, electronic instruments and other electronic, electrical, communications products, electromagnetic shielding conductive.

 

Conductive Silver Powder is the T3-T30 powder Market representative, has good conductivity, 3M test off powder, resistance is less than 0.5 /10cm/15 m silver content of 3%5%10%15%20% powder delicate, silver copper powder particle size according to customer requirements of some high silver content of ultrafine silver copper powder can be added according to a certain proportion of conductive paint made in sterling silver powder, conductive silver paste, conductive adhesive, conductive printing ink, cost advantages, the use of non cyanide electroless plating process, developed a good electrical conductivity of silver plated copper powder, the powder volume resistivity of less than 2 x 10-3 Omega cm, conductive coating made from the powder as filler, high conductivity (conductive filler and resin weight the ratio of 75 to 25, the volume resistivity is 5 * 10-3 Omega cm) anti migration ability (increased nearly 100 times than the ordinary silver conductive coating (60 DEG C) conducting stability by relative humidity 100% damp heat test for 1000 hours, the volume resistivity increased less than 20%)

 

Posted on

Applications Fields of Copper Nanoparticles

Copper nanoparticles in different particle size are purple or black. There are no other colors mixed. They have spherical shapes and no obvious agglomeration. Copper nanoparticles have large specific surface area and a number of surface active centers. It is the excellent metallurgical and petrochemical catalyst. The nano-copper powder can be used for the conductive paste. 100 nano copper powder (FCu) producing by this method and dubbed the copper electronic suspensions can be sintered only 0.6 microns thick electrode. It is applied in MLCC and makes the MLCC miniaturization. It optimizes microelectronics technology and replaces silver electric and precious metals such as electronic pulp expected. It greatly reduces the costs. Copper and its alloy nano-powders are used as catalyst with high efficiency, selectivity. It is often found in the process of carbon dioxide and hydrogen and methanol synthesis reaction.

Conductive Silver Powders as the raw material drug (weight ratio of 0.2 to 0.4%) can significantly reduced MDA content, and to improve the oxygen free radicals caused by lipid peroxidation damage, significantly increased SOD content, and enhance the body’s SOD levels, to regulate their characteristics of the functional activity of expression, so as to achieve slow the body’s aging process, intervention, and to postpone the structure of the tissues to the aging transformation has opened up new ways of life science field of anti-aging. Researchers as the preparation of anti-aging and cerebral ischemia, cerebral complications such as therapeutic drug efficacy, easy to take, safe. More experts and professors for the treatment of cancer has made miraculous after anti-so far as to explore its mechanism. Nano-copper powder can also be used to add new medicines in the treatment of osteoporosis, bone hyperplasia materials.
Copper nanoparticles are used as metal nano lubricant additives for metal powder exporter. Adding 0.1 to 0.6% to lubricants, greases, Mount Sassafras process, to set friction pair surface form a self-lubricating, self-laminating, significantly improve the Mount Sassafras vice, anti-wear anti-friction properties. Adding nano-copper powder metal friction self-lubricating oil in the repair agent to a variety of machinery and equipment, metal friction pairs wear part of the self-healing, energy saving. It will increase equipment life and maintenance cycle.