What Makes Lead Good For Radiation Shielding...

For those who work in nuclear power plants, perform particle accelerator work or operate medical x-ray systems, the fear of radiation poisoning continues to be very real. However, today, preventing this from occurring is the priority of employers around the globe. Preserving humans from harm by ensuring the safe operation of all equipment is a priority. They install various types of radiation shielding to provide the optimal degree of protection. Radiation Shielding and Lead Shielding is a means of protecting employees and sensitive equipment against the negative forces of radiation. Lead is a preferred material for several reasons. This metal is ideal for use as a protective shield against radiation because of several properties. It: Has a high molecular density. This is 11.34 grams per cubic centimeter Possesses a great degree of flexibility regarding its application Is extremely stable Has a high atomic number. Lead ranks at 82 higher than other shielding alternatives such as thallium, silver, and gold Is readily available in many forms (including lead-lined types), e.g. bricks, drywall, foil, pipes, plywood, powder, sheet, shot. This makes it ideal for consideration when constructing items as diverse as a simple vest and a building complex Is less expensive than other shielding alternatives such as silver and gold Is less toxic than several other shielding substances, e.g. bismuth, thallium These properties combine to make lead shielding one of the most effective means of safeguarding people and devices against radiation. In fact, it remains the standard for radiation shielding designs. Lead Radiation Shielding When considering the safety of workers and the protection of sensitive equipment, conscientious companies put into place diverse protective devices. When it comes to working with harmful gamma and x-rays, the solution is lead radiation shielding. By employing a lead defensive apparatus,...

What To Look For When Purchasing a Blast Cabinet...

If you were to check step-by-step instructions ahead of virtually any project, the first step is almost always to get prepared. Those working with products that need blasting ahead of surface treatment need to ensure the preparation is done properly. While there are many methods of surface preparation available, abrasive blasting is gaining in popularity due to its general ease as well as its lack of chemicals. One of the most common setups for abrasive blasting is a blast cabinet, an enclosed space accessible by armholes to manipulate the item being blasted. Cabinets come in a variety of sizes and prices that can appeal to the professional and the hobbyist alike. When considering a blast cabinet purchase, you should consider your needs to get the best fit. Cabinet Size Think about the size of the pieces you need to blast, including those you may be likely to need in the foreseeable future. Cabinets range significantly in size, and if you only expect to be blasting tiny parts, it may make more sense to consider a tabletop-size version rather than a floor-standing model. Blast Gun Size Your air compressor will be a significant determining factor in what size of blast gun you can support, as well as what type of material you plan to use for blasting. Consider both the strain you may be putting on your compressor, as well as the cost-benefit of a nozzle that might last longer but cost more up-front. Cabinet Quality and Features Blasting is a very harsh process to the inside of a cabinet, so it’s essential that the interior is constructed solidly. Also, do the openings to the cabinet make sense for the objects you need to blast, or will they be awkward? A dust collector is essential...