Category: General Article

If you are planning on relocating your business, then you may be looking for how to begin the process. Here are some tips for making the transition as smooth and painless as possible.

Establish a Plan and a Timeline

The amount of detail and organization required for moving your business can be daunting. However, creating a step-by-step plan and a time frame through which the steps can be accomplished can definitely be beneficial. Include crucial information such as the moving budget, a list of contacts which covers everyone involved directly or indirectly with your business and delegate moving tasks depending on the size of the move.

Look Into Hiring Movers

Enlisting the help of a moving company may be a smart choice. The movers you choose are dependent on factors like budget and the type of business you operate. For instance, if you run a manufacturing plant, then do an internet search for “heavy equipment movers near me” to find companies that specialize in the transportation of machine parts. Once you find a company, provide them with all relevant information to help quickly facilitate the move.

Update Contact Information

Having the right address and phone number listed on popular search engines and business directories is essential. Be sure to change this information as soon as possible after you have completed the move. Customers will be able to easily find you at your new address, as well as service providers that provide electricity, internet and other amenities to keep your business running. If your business is well-known in the community, it can also be beneficial to make flyers to post around local boards and community centers to inform consumers.

Moving your business does not have to be a hassle. If you have a clear and structured plan for the changeover period, you are guaranteed to execute it with as little loss of time and money as possible.…

Manufacturing complex metal parts can be difficult with most casting methods—creating the die is costly and the process requires a lot of fail-safes to ensure the liquid metal fills the mold and solidifies properly. Recent years have seen the rise of an alternative, though: metal injection molding (MIM), a form of powder metallurgy that promises high-quality products with lower costs. Many industries are turning to MIM as the answer to manufacturing challenges—why?

The Process

Metal injection molding is similar to other powder metallurgy processes, but it starts with a different feedstock composed of fine metal powder and a plastic/wax binding material. This feedstock is heated and injected into the mold, producing a metal and plastic “green” part. A multi-stage process removes the binder via thermal or chemical treatment, and the results are sintered to join the metal particles. After sintering, the products are about 95-98% as dense as the bulk metal, which may be further improved on.

Applications of MIM

Within the past few decades, the market for MIM parts has steadily grown and is projected to grow further. MIM parts are often small, complex and mass-produced components where dimensional specifications must be met with high accuracy; this includes extremely thin walls and fine details such as threading or identification marking. This includes application in electronics, firearms, medical equipment and the aerospace and automotive industries.

Why MIM?

MIM is limited to small feedstock injections, and the tools and molds are more expensive upfront. However, compared to competing methods, MIM is more economical overall for high-volume production of small metal parts with complex geometries, a niche that nonetheless has high demand—some components that can be produced through MIM are impossible to create otherwise. Sintering also works at about 90% of the material’s actual melting temperature, making it valuable for alloys with prohibitively high melting points. Additionally, little to no machining is required for the final product, saving considerably on material costs, and the injection process essentially combines multiple stages into one.…

Perhaps a common image in people’s minds during the hot days of summer is a flowing fire hydrant in the street with children running through the cool water. It might be a common image, but it’s not usually a common occurrence. More likely, fire hydrants are opened to perform a fire hydrant flow test, which ensure the hydrant is functioning properly. Not all of these tests are performed the same way, depending on the city’s equipment and preferred techniques, but there are some basic practices that make up a standard hydrant flow test.

Preparation

The first step to preparing for a test is to determine the type of hydrant. There are two types of hydrant: wet barrel and dry barrel, which indicates whether or not the hydrant is directly connected to the water source. In a wet barrel it is and there is always water in the hydrant, but in a dry barrel the water source has to opened to fill the hydrant. The organization performing the test should also notify the local water company before performing a test, because the flow from the hydrant could causes changes in water usage for nearby residents or businesses.

Test

First, a person will have to locate which hydrant to test using a variety of considerations. Then, they will remove the pressure cap and attach their pressure gauge to the hydrant so they can see what the water pressure is when they start the flow. After the gauge is properly affixed, they can turn on the water and get a reading on the pressure. Once this is done they can record their readings and secure the hydrant once again by cutting off the water flow, returning the pressure cap, and ensuring all of the valves are turned off so the hydrant will not leak.…

The production of rubber items can provide a few benefits. There are trends to shape the industry. Rubber items are great to utilize because some items are easily mass-produced. The industry is part of the massive manufacturing industry. The demand for rubber products exists in several industries. There are several items that require the use of rubber. In some cases, the items are more durable because the product design is created with rubbers as one of its’ material. There are several states that produce rubber, but in Ohio alone, there are more than 1,000 companies who produce plastic and rubber. With each state, there are companies who using technological advances to improve how rubber items are created. The demand created by the various industries must be in some manner and technology will improve how it is done. There will be billions of dollars spent in an industry that will continue to be useful to other industries and the consumers who utilize the products.

Benefits Created with the Use of Rubber Parts

Something like custom manufactured rubber products will provide a few benefits In some cases, custom-created rubber parts will perform better than other parts. The precision in the customized design will create a better fit. The capability of utilizing rubber parts provides a business with some versatility. Rubber can be used to create almost anything, and it can be quite inexpensive to create products. The other benefits gained by the custom rubber products are:

• Withstands high pressure
• The durability of the product is helpful

The use of the product will be able to withstand exposure to high pressure. There are many devices who require some durable qualities to withstand some of the high-pressure during use. A rubber product can be great for durability. Most products will be able to withstand some impact damage. It may not show as much wear and tear as other materials used in the production of items.

Trends To Move The Rubber Industry Forward

Trends that will affect the customized rubber industry will be the use of 3D printing. As 3D printing continue to advance, there will more ways it will be useful in the mass production of rubber items. There are more companies who are willing to use 3D printing. The automotive industry has utilized 3D printing to create tires. Tires that would easily customizable with the use of 3D printing technology. The industry makes use of more data to help make production more efficient. The rubber industry is expected to gross over $30 Billion in revenue worldwide. The trends will help reach future revenue levels. The trend to expect is the automotive and transportation in developing countries will create demand. It is projected the countries will account for more than 55 percent of the rubber that will be produced. Asia Pacific region will utilize the majority of rubber being produced. The region will also help produce significant amounts of rubber items. The science regarding the materials being created will increase. The science is going to beneficial in creating more ways to utilize rubber and in some cases make rubber stronger and more flexible for use.

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There are many ways to convert a substance into heat, or an energy source that can be used to power machinery. A steam generator is a type of equipment that is designed to convert a liquid into vapor. The liquid is generally water and the vapor is commonly known as steam. The way the generator works is that it heats the liquid by burning a substance. The substance may be coal, wood, natural gas or petroleum. To change the liquid into steam, the generator pressurizes the liquid and expands it. The following is a snapshot of the type of generators that use steam.

The Steam Solar Powered Generators

Solar power generators that use steam are the cleanest source for boiling water. It requires water. The water is sent through tubes located in the solar panel. While the water is in the tubs, the sun heats it. The water then runs through steam turbines. Once there, the water creates electricity. Unlike other types of generators that use steam, it doesn’t not cause pollution or waste products.

Fire Tube Boilers that Use Steam

The first generators to use steam were boilers, and they were used to power trains and steamboats. These boilers required the use of fire boxes to generate fuel. At first, the fire boxes used a wood-burning technique. Later, the boilers used coal.
Connected to the fire boxes are tubes. These tubes are connected to a water chamber. This is where the water is heated and turns into steam. Once it becomes steam, it releases the gasses via a smoke stack.

Generators that Use Water Tube Boilers

Water tube boilers were invented after the fire boilers. It is a type of generator created so that the steam generated could produce high pressure. In fact, a higher pressure that could come from a generator run on steam from a fire box. Water flowed through the generator via tubes. These tubes were at an angle. While the water is in the tubes, it’s heated. The higher the pressure from the steam, the faster the machine goes. This is one type of generator that uses steam that actually uses less heating fuel.

A Generator for Heat Recovery

A heat recovery generator, is also called a heat exchanger. The steam used in this system recovers the high pressure hot gas. This means that it uses the steam after it’s been running through a series of heat exchanges. The reason for this type of generator is to power machines that don’t need a lot of power to work. The heat recovery generator that uses steam can even be used to supply steam heat for homes and industrial buildings.

Combustion Heat Generator that uses Steam

Combustion heat generators also use steam. These generators are similar to the heat exchange generators discussed in the prior section. However, they can produce a higher amount of pressure. In fact, combustion heat generators can power plants because they create so much pressure from steam.…