Overcoming Difficult Rock Formations with Sonic Drill

Many people think of giving up when a drilling project would involve a difficult and challenging rock formation. They may not know this yet, but employing sonic drilling for such a project is the sanest thing to do because it is primarily designed for that kind of work or drilling task. 

project coordinator

Deciding to go ahead with a project that seems to entail an insurmountable difficulty is a risk and can’t be taken lightly, especially when something is at stake. If you know that you are about to take on a drilling job that involves working on loose or fragile ground, the use of a sonic drill will make sense.  

All these years, the mining sector has been taking advantage of sonic technology and makes it work to their advantage. They know that with this type of drilling technology, they have a good chance of overcoming obstacles with great efficiency. Other methods of drilling that are still being used today will never be at par with what can be achieved with the sonic method of drilling. 

The high level of success of the sonic method of drilling can be attributed to its use of resonant energy. This frequency force significantly helps the core barrel to advance itself regardless of the subsurface formation you are faced with. With the drilling activity going on, it will generate energy that will be relayed to the drill string and, then, finally onto the bit face. This is considered by the experts as a normal occurrence that may happen at varying sonic level frequencies. 

The string and its sustained rotation will help on ensuring that there is an even distribution of energy here. It is possible to leave an impact on the bit face, which renders the efficient advancing of the string. 

While the sample is contained within the core barrel, the outer casing would be drilled over the barrel, helping it in the process to keep the same depth. This takes away the need for liquid of any kind, even water. The chances that the hole will become and remain stable is high. What does this cover then? Heaving or lose sand, gravel, till, cobbles and boulders. 

Here are some good points on why the sonic drill is considered by expert minds in the business as more advantageous than any other conventional method of drilling. 

Superior information: 

Sonic cutting is very effective in sheering soil. It will be so clean that it will be hard for anyone to spot the presence of liquid around it. Or else it certainly would have diluted or soaked your sample. The drilling process will work in such a way that you are likely to obtain a relatively undisturbed sample, no matter what kind of soil you may be working on. 

With this kind of scenario, you are certain to be a step closer to obtaining 100% core recovery, and this is going to be continuous to the depth. This will translate into superior subsurface information, a crucial factor to have when you need to decide anything about continuing or carrying on your drilling project or chance the course instead.  

Speed: 

The medley of slow rotation and vibration will render the quick advancement of the casing via unconsolidated formations. This gives you a reason to expect a penetration rate that is at least 3 times faster than what traditional overburden drilling is like to have.  

Reduced amount of waste: 

This drilling method, by far, is considered by industry insiders as an efficient drilling process that can be carried out efficiently even without the use of any kind of liquid, which will reduce expected drill spoils and wastes to at least 80%. With other traditional methods of drilling, this is going to be a complete opposite.  

Conclusion

Employing sonic drill, with all the 3 points described above, for what seems to be your most challenging ground drilling project to date will increase your odds of obtaining full control in mapping out your projects’ schedule as well as allowing for better management of your resources, particularly in the financial aspect. 

It also minimizes the chances of your drilling project to fail as well as the possibility of deadlock brought about by difficult subsurface conditions. And the fact that it will also lower your overall costs while keeping the likelihood of environmental impact is a sigh of relief to project handlers.  

WiFi Antennas Explained

best wifi antennas

The technology behind WiFi antennas and GPS antennas made it all possible for the advent of wireless communication to happen. It marked a new age for every one of us, a revolution in the very way we share and exchange information.

Wireless communication is simply defined as the exchange or the transfer of information from one media to another in the absence of physical connection to each other but is made possible, though, by electrical conduction.

What is Antenna?

Before we delve into something else, we need to define first what an antenna is and do it from its technical side. An antenna is a device designed and structured to convert electrical signals to EM waves, or vice versa.

The electrical signals that are coming from the transmitting circuits of an antenna will be transformed into EM waves, after which they would be radiated into the atmosphere. As for the receiving antenna, its work will begin by capturing those EM waves in the atmosphere and convert them back to the original electrical signals for further processing.

As for the dimensions of the different parts of the antenna, this would greatly depend upon the EM wave frequency that is being transmitted. When it comes to the components of the antenna and their dimensions, they will vary so as to match or be at par with the wavelength or frequency of the transmitted signal.

The vast majority of wireless communication devices we have today that are separated from each other by considerable distance will need to make use of some kind of antenna. There are occasions that these antennas will have to be external, and thus they can be easily observed, much like routers. Others are indelibly etched in the module of the PCB itself.  

WiFi

WiFi is a wireless technology that almost every one of us is most familiar with because we use it in our home network to access the cyberspace or the Internet. People nowadays know one important value of WiFi, it helps us communicate with other people, even if both parties are situated in the far-flung corners of the world.

We can also take advantage of WiFi technology in transferring files and information across devices at amazing warp speeds. Modern pieces of home and office equipment such as scanners, desktop and laptop computers, printers and other similar hardware can be shared and accessed wireless, without needing to use wires that will lay and hang around the floor.

WiFi Antennas

Long range WiFi antennas work in much the same way as to how the above-stated communication block diagram. However, instead of using voice, network data packets are used and transmitted instead.

reliable wifi antennas

These data packets would be converted to EM waves via the access point/wireless router and they are radiated out via a transmitting antenna. Your mobile device has its antenna inside and this will convert the EM waves back to its original form as electrical signals for data processing.

What You Need to Know Before You Buy a PlasmaCam Machine in Australia?

Plasmacam in Australia

When the topic of discussion is all about CNC cutting machines, it is hard not to mention plasmacam Australian machines. Expert minds in the industry believe, and are making this assertion, that it is among the world’s leading CNC robotic brands.

It is quite evident that there is an increasing number of machining shop owners in the country that are now making that decision to switch and finally acquire and add CNC plasma cutting tables to their arsenal of machining tools in their shops.

Plasmacam is a computer-guided robotic arm. They guide the plasma torch over the work surface while the process of creating complex and intricate patterns is ongoing.

With the ability of this machine cutting tool to cut a wide spectrum of materials with such an amazing level of precision, the possibilities that you can make a significant amount of profits out of it is almost endless. If you are into creative arts and like making something out of metals, the use of plasmacam can help you create metal art and offer them for sale to art galleries and trade shows.

But the acquisition or buying a CNC machine of this type is not going to be as easy as getting your way to a nearby hardware store and pick one up. Much like anything else, you want to look for value.

If you want to save a considerable amount of time and money for your company, making careful research first is necessary.

Quality of the Machine

This is the first and foremost thing you need to look out for, a high-quality machine. We are having this notion that regardless of who manufactures them, the cost of a single CNC plasma cutting table will always be bordering on being exorbitant. Do some research on this area, so you can be sure you are getting nothing less than a high-quality product that your budget will allow you to buy.

Materials

Carefully inspect the quality of materials utilized in constructing the frame. Is it aluminum or steel? Or perhaps it is something else?

Compared to aluminum, steel is so much stronger and more durable material. Machines that are constructed out of steel tend to be lighter and display on an appearance of flimsiness.

Aluminum machines tend to be bulkier but give you the appearance of strength and durability. Machines that are made from either of these two metals are certain to have enough strength and durability even for the biggest jobs.

Design

The quality of the table design is one important element you also need to look into . There are a lot of factors that will impact the table and its performance. A slight variation, even in the smallest factor, can create a huge impact and that happening may alter the table performance.

For instance, if the sheer weight of the gantry is way too heavy than standard, it will put some strain on handling accuracy and high speed. On the contrary, a light-weight gantry is good in making for you accurate results, even at high speeds.  

Motors

What type of motor do you control the torch with? Stepper motors are recognized as far inferior to Servo motors. You can make them move about to an infinite number of positions, for as long as it is still within the range of its motion. Additionally, it is also equipped with a mechanism that will provide the controller with some feedback.

It will give the controller an idea of the location it is working on at one particular moment. Thus, the controller can make the stepper motor just jump instead of several steps. However, the downside here is that the controller does not have any way of determining if his requested movement actually took place or if it was indeed carried out.

Finally

The things you need to take into account may not be as exhaustive as they should be but make it sure that you verify the warranty period with which the plasmacam table comes with. Are you seeing any indication that the manufacturer would be standing by their products?

When it comes to the offered warranty for these products, a long warranty period is a much better alternative as opposed to a shorter one. You might also want to know if it covers for all parts and components of your plasma cutting table, or perhaps applicable only to some parts? What options do you have in case the warranty period lapses on you? How much would it cost you to replace parts?

Machinery Maintenance for Guaranteed Safety

Progressions in technology have been it possible to revolutionize the way we do things today. With the help of information technology, automation, robotics, and artificial intelligence, alterations were done, the ones that we never imagined to be possible a few decades back. One common factor for the progressions we have now is a machine. It is with the use of machines that we have acquired what needs to be done without having to exert much time and effort into it.

machinery maintenance

A machine is an integral part of any business and without it, the business is bound to struggle. This is also machinery maintenance has always been stressed and made a priority. In every process of production and other related processes, machines make them possible.

Machinery Maintenance: Changing Our Lives

Machines simplify our lives. But, if a problem happens, it can also disrupt the flow of our daily activities and bring hazards if not maintained properly. This is the reason why machine maintenance and safety should be emphasized. If you are an employee or owner of a manufacturing corporation, you can very well prove the inconveniences and dangers that a poorly maintained machine would bring.

Maintaining the machine is very beneficial for the company for a long period of time. With proper maintenance, it helps avoid issues and even lengthen the life of the machine. It is recommended to seek professional guidance when doing maintenance.

Advanced techniques like infrared, sound level measurements, oil analysis, vibration analysis, and many more have been adopted to locate the problems and faults in machines during the maintenance. This is done to ensure that the machines are working properly, and they can carry out repairs wherever needed.

Machine Safety

This is one of the most important aspects that companies need to focus on. This is because the consequences of having powerful machines that could cause dangers to the workers can lead to fatal risks when handling the machines. Therefore, it is a must to install safety guards and protective coverings on the machines to they become risk-free for employees while not affecting its usage.

In this case, you need to look for professional help to acquire machine safety guards that will offer practicality, safety, and ease of maintenance. Make sure that you only look out for firms that have innovative models, as well as safety guards that are custom-made for the facility.

Investing in machine safety and maintenance is very important and will save a lot of money in the long run as there will be lesser repairs which can cost a lot and any issues and problems will be taken cared of. At the same time, it will also help keep the workplace safe and more productive as there will be no bottlenecks of faulty machines. Click this link for more information on machine maintenance.

What Makes WaterJet Cut Machine Distinct from Laser Cutting in Sheet Metal?

waterjet cut machine

For people who are not particularly fond of using water jet cutting technique in their metal fabrication works, it would benefit them to know their best features first. When working on a project that necessitates the use of metal, perhaps what can be considered as the most challenging part of it has something to do with cutting. Things can even come to the worst-case scenario when the metal sheets come in plates with 1” thickness level or sometimes even more.  

You can cut metal sheets to come up with delicate and intricate patterns. You can use either a waterjet cut machine or a laser cutter instead. Note that both of these 2 material cutting methods come with their own set of strengths and limitations. Knowing what these 2 are can make a whole world of difference in deciding which of them would work best for you and your material cutting project at hand. 

Water Jet Cutting

If you happen to have no idea how a waterjet cut machine work, it is comparable to the erosion of, say, a waterfall. Gradually, a waterfall would wear away even the hardest rock on a cliff. Perhaps, their main difference is that, water jet cutting is carried out in warp speed. It also comes with a higher level of precision. 

These jet cutters will make use of high-pressure water. At times, depending on the material you are intending to cut, abrasive particles like garnets or aluminum oxide can be added to the water itself. This measure will further intensify its cutting power a thousand times more. 

The pressured water ejected by the machine can reach a maximum 60,000 psi. This explains the reason why it is ideal for use in thicker sheets of metal, where the use of laser cutters would not practical anymore or would not be viable enough to use.

Even if you try your best effort with a laser cutter to cut through a thick metal sheet, chances are high that what you will have in the end is of poor quality. Something you will not be so proud to present to your customers. 

Metal fabrication centers that are leaning towards the use of water jet cutting machines are doing so due to one of the following four points: 

  1. It is normal for them to work with thicker metal sheets, sometimes with patterns that have large tolerances. 
  2. They want to veer away from the heat produced by the laser cutter, knowing for a fact that this can get in the way of the cut they are trying to make. 
  3. They are handling a wide array of materials. Water jet cutting technology allows you to handle a manifold of materials too, from stone, ceramic, steel, reflective metal and many more.  
  4. With waterjet cut machine, you can work on cutting the metal sheet while remaining flat throughout the whole process whereas, in laser cutting, you may sometimes need to observe leveling. 

Laser Cutting

Even though laser cutters are qualified modern material cutting method, it is unfortunate though that it comes with one major drawback. Laser cutting machines are limited to cut through ⅝” thickness. Going beyond this thickness level, and what you can anticipate having is a poorly executed cut quality. Gives you the impression that, is it a laser cutter that did the cutting? 

laser cutting machine

Although the key selling point of laser cutting are its high level of precision and fast cutting speed, it has its own share of drawbacks, too. It just so happens that it can only handle cutting  ⅝” thickness level, and going beyond might run the risk of compromising the quality already. A custom software application or a bundle computer program that can handle and process a CAD file will initiate and carry out the cutting process within several seconds only. The vast majority of metal fabrication shops in the country employs this strategy for their prototyping requirements. 

Laser cutting machines that comes with a stackable material tower feature is also highly recommended for large production runs. Perhaps, the only thing that is considered manual labor here is the loading of the said material and subsequently unloading of the finished parts. There are also several hundreds of companies that handle long cutting runs overnight, and leaving the machine in their facility unattended.  The laser derives its energy from nitrogen or CO2. Sometimes it would be a combination of gases, transmitted via a beam and under the direction of mirrors.  The beam may offer an output of 1500 to 2600 watts on some laser cutting machines may reach 4,000 watts up to a maximum of 6,000 watts on other pieces of laser cutting equipment. Plexiglass, plastic, wood, and all metals can be efficiently and conveniently handled by laser cutting.

The Advantages of Interactive Touch Screen Displays

The availability of touchscreens systems has greatly revolutionized the way how we communicate today with a range of electronic devices like cellphones, retail kiosks, and computers. While interactive touch screen displays are becoming very common and are utilized almost everywhere, their significance in a business setting could not be undermined. On the other hand, in a corporate setting, displays and monitors are used as entertainment centers, interactive video conferencing systems, and presentation tools.

The mere use of these systems is one reason why it is easy to find a range of touch screens in the market for business purposes. Below are some reasons why such technology is important for modern businesses.

The Importance of Interactive Touch Screen Displays

Fast and Easy to Use

We can never deny that touchscreens are very easy to use. Also, they allow users to navigate through the details without having to continuously click buttons just to change pages or go through the menus. In the case of a presentation, the very last thing that you would want is to wait while the presenter shuffles through a keyboard or mouse. With the help of a touch screen monitor, the presenter would be able to keep going with the presentation without interruptions. In addition, touchscreens help increase the speed of the presentation as there is no need to pick up the computer mouse to locate the pointer on the screen.

touch screen display

Reduces the Size of a Device

With the use of a conventional computer and system, the presenter would need to work on equipment that includes a mouse, computer monitor, keyboard, and presentation tools. On the other hand, the interactive display is an all-in-one-system. Furthermore, there is a wide range of touch screens so choosing the most suitable one is easy.

Reduces Cost of Operations

Presentation equipment like a mouse, keyboards, desktops computers, and projectors need maintenance. A projector needs so much maintenance by regularly cleaning the air filters, as well as replacing the bulbs. On the other hand, touch screen displays do not need a lot of maintenance and they can even operate longer without issues. You also must factor in components such as a projector, along with other things. It is a must that relevant issues should be considered when deciding.

Based on LED and LCD technologies

Just like with the touchscreen display that is found on a smartphone, there is a variety of touch screens that can be found in the market that utilize LED and LCD technologies. This gives a very clear, sharp, and rich image. Such high definition and high-resolution displays ensure that during presentations all members would be able to focus on intricacies that are discussed without having to lose track of what is going on because the display is not clear.

With all these things, it is no wonder why our lives are becoming so much more convenient, fast, and easy in today’s time. With this technology, the use of gadgets has become very user-friendly and we can expect to see more developments in the next years to come.

5 Reasons Why You Should Use A 3D Scanner

The use of a quality 3D scanner has transformed a range of industries, from designing shoes to car manufacturing. A structured light scanner works very well and accurately. At times, they are referred to as blue or white light scanners. This type of scanner can scan objects multiple times from each angle. It then turns a tangible product in a matter of seconds to virtual designs. Below are some reasons why you should consider the use of a three-dimensional scanner in manufacturing.

digital scanner

3D Scanner Benefits

Saves more Time in the Design Stage

If for instance, your product needs a new part that should be designed based on the pre-exiting object, a high-quality scanner. As there’s a need to reverse engineer, the new object could align perfectly with the capabilities that the scanner can offer. The scanner could get into each nook and cranny of the current product and offers precise dimensions where the new part needs to fit.

The use of a scanner can save more time when alternations need to be made to the current design. If there is a need to change the thickness of an automotive part or a ring, the scanner works faster compared to hand-drawn calculations.

Makes the Creation of Prototypes Faster

Making an accurate prototype needs multiple attempts. Good thing that with the help of a structured light scanning, such a process is expedited. What is more interesting is the fact that 3D scanning can lessen the number of prototype cycles during the design and production process. The scanner will not just measure cross-sections but will also identify areas where the objects have been warped. Moreover, it saves data that are related to the scan.

Better Quality Control

A three-dimensional scanner is so accurate and has been a big help to the biggest world museums. They have started to rely on it when preserving their famous artifacts from various cultures. In addition, it checks the material composition, as well as the volume of the object.

Remanufactured Parts Without the Need for CAD

When you need to remanufacture a part that originated from CAD or computer-aided design, the scanner makes it possible to create accurate reproductions. You just have to scan the old part and make use of reverse engineering software. The scanner could be used to compare the newly created prototypes to the scan of the previous part to check its accuracy.

Compare Designs Easily

One more advantage of using such a scanner is its ability to compare your designed models. Aside from quality control, being able to compare designs to the manufactured products will ensure that the manufactured product would fit as needed, just like in automobiles. At the same time, the cross-check can tell a jeweler whether a piece of jewelry would fit inside a ring or pendant.

Indeed, 3D scanning is a precise and efficient means of manufacturing products. Whether you need an engineering prototype or artistic restoration, the products that are used in scanning needs accuracy and quality. These are exactly what the scanner can offer and many other benefits. Click right here for scanning benefits.

Is UHF Antenna a Better Choice than VHF?

Is UHF Antenna a Better Choice than VHF?

Knowing the differences between these two will help recognize the best signal frequency to use for a two-way radio. For example, a UHF antenna doesn’t travel as far as very high frequency, but it has a higher bandwidth.

Different wireless communications systems like two-way radios and cell phones operate operating frequency. It is the government that regulated the frequencies, as well as equipment that is used to communicate. It is a given that various kinds of radio signals, thus different wireless equipment is needed to satisfy the needs. Below are some more information you need to know about UHF and VHF.

VHF Antenna

VHF is often used for long-range communication, marine communication, long-range data communication, two-way land mobile radio system, and FM radio broadcast. It includes radio waves that are from 30Mhz-300Mhz.

VHF wave should not be over the local radio horizon to 100 miles. The frequencies are not likely to be disrupted by any issues with any electrical equipment, atmospheric noise, and other types of interferences. As it has a lot of different users, the low-band VHF is not very much recommended to be used for serious applications because of the level of radio noise that is present in these frequencies. In spite of the possibility of background noise, this remains a great choice because of being a low cost. Its transmission power is restricted to below 50mW, unless you will be functioning an assistive listening system that should be in 72-76MHz range. At the same time, a big antenna booster is needed, measuring as much as 3ft, thus limiting its portability.

UHF Antenna

Indoor UHF antenna radio waves are shorter when it comes to length compared to VHF, measuring at around 12-24 inches. This results in antenna length and radio range that is reduced. Anything from a human body to a building can disturb the transmission. Interferences and dropouts are more possible, but larger bandwidth occupation is allowed. This results in a broader frequency range and a wider scope of audio signals. Ut to 250mW is allowed, surpassing 50mW power restrictions.

In addition, UHF radio waves could only go as far as the line of sight. Anything that could get in the way of your eyesight would interfere with the frequency range, like tall trees, buildings, and other obstructions. For its transmission, it is high enough to be able to infiltrate through the walls of buildings, thus making the reception inside to be possible. The line of sight broadcast range is what makes the UHF incompatible in some cases. On the other hand, VHF offers a bigger broadcast range, the reason why it is preferred in some industries.UHF radio signals are utilized in many aspects of life including Wi-Fi, cellphones, cordless phones, walkie-talkies, television broadcasting, GPS, Bluetooth, and satellite communications. A large benefit of UHF transmission is its short wavelengths that are produced by high frequency. The radio wave size relates immediately to the transmission length and the reception antenna. Generally, UHF antennas are wide and short. Click this link to learn more about these two types of antennas.