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Moisture analyzer for the plastic-A new generation



Moisture analyzer

One of the most concerned and important requisites of construction is plastic products in which plastic resins are one of the most important ones. One might wonder about what plastic resins are? Those who know very little about it will be helped out with the article right here. Well,  plastic resins are plastic materials collectively related to plastic materials family and are used in construction and industry. Also, they can be used to manufacture bottles, containers, closure, and caps for drugs, medical products, and supplies.

Determining the moisture in plastic is often a critical component in manufacturing processes and quality assurance. Across a variety of industrial applications, moisture analysis is highly applicable where the precise amount of moisture is monitored. This is done through a Moisture analyzer for plastic

Moisture analyzer

It can detect the water content in a wide range of materials, and over a large range of concentrations.This is a product that plastic manufacturing companies and factories use for measuring the amount of moisture in plastic items. Ensuring the right amount of moisture in items ensure manufacturing with a high quality of plastic.

NEX OL process elemental analyzer

Let’s talk about an upgraded version of the moisture analyzer because why not? there are always some incredible advancements in technology ever since. So is in moisture analyzers manufacturing .here we are talking about the 3rd generation energy dispersive X-ray fluorescence technology that is equipped into the NEX OL element analyzer. It surely represents the future of element analysis for a liquid stream. We can say that other than liquid streams, it is the next evolution of fixed position web or coil applications as well.

More bout it

One might think about a lot after knowing about the basics of it if you don’t know much, I’ll be helping you out. It is designed to reach heavy industry applications and even food grade gauging solutions. If we talk about its usage and circle of application, it is highly applicable in classified as well as non-classified areas.

Analyzing capacity

Well, it is an important step to go through its capability of analyzing the elements inside the material as it is used. It delivers condescending performance and maintains high reliability. Rigaku NEX IL QC+ (being a high-resolution benchtop instrument) caused the existence of another instrument EDXRF that sophistically measures the head assembly. The analysis which Rigaku delivers is surely rapid, non-destructive, and is multi-elemental.

Device make

If we talk about the device, it is equipped with the 50KV X-ray tube and an SDD detector along with the standardized and optimized suite of tube filters. It is engineered such that it can be applied to a wide range of process control. It is something that makes it unique and a true definition of modern tech. let’s talk about some of its phenomenal advantages and qualities. So here we go.

Qualities and advantages

Rigaku NEX OL analyzer is all capable of real-time process controlling by elemental analysis. It can easily analyze many different elements like aluminum and uranium. It measures from ppm levels to weight percentage. Also, it is equipped with the NEX QC+ optics and SDD detectors. The device is equipped with a strained industrial touch screen interface. Also, it releases no treacherous radioisotopes. So we can use it without any fear of danger.

Need to maintain the moisture level

People who work in molding industry are more conscious and familiar with the need of maintaining a high quality of moisture level in resins, which if compromised, can badly affect the stress testing phase of resins although its impact cannot be seen with naked eyes in the finished product. Yet it effect of excess or lack of moisture can impact the resin in the form of compromised molecularly.   In case of any occurrence, there are no immediate solutions to this. This results into the destruction or burning of resins, also they are shipped back to their supplier or manufacture if feasible.

Standard testing procedure

Under the standard testing procedure released by American Society Testing Materials, the moisture content of plastics has to be tested through LOD process or loss of weight on drying. It is also known as “Thermo gravimetric method”.

Structurally a chamber is heated and sample resin is placed on a pan which is supported on a weight balance and pre-heated. The heat lets the moisture from the resin evaporate. Testing procedure completes as the weight of resin falls to a specific rate during evaporation process.


Now let’s talk about the coating thickness and the composition, Rigaku is designed to analyze the coil and web as well. it can carry out multi-elemental compositions or coating thickness. Its performance remains unmatchable. The device is equipped with the fixed-positioned head over a roller. It keeps the head-to-surfacedistance remain the same.

Personal suggestion

If you are also one who works in the manufacturing industry, you surely have to buy one to assist your processing to analyze plastic, resulting in a more specified product and satisfied customer. The performance is never going to disappoint you.

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quantum wormholes United Kingdom has potentially figured out



United Kingdom has potentially figured out quantum wormholes

Vice reports that a physicist working at the University of Bristol in the UK has potentially discovered quantum wormholes. Researcher Hatim Salih has proposed an experiment that makes a type of teleportation called “counter-transportation” realistically feasible. However, this isn’t exactly the Star Trek transporter many sci-fi fans have dreamed of over the years. Here’s everything you need to know about Salih’s quantum wormhole experiment.

Salih’s quantum wormhole is a huge scientific breakthrough.

The general theory of relativity of the famous scientist Albert Einstein affirms that hypothetical “bridges” are possible between two points in space-time. However, since 1935, when Einstein presented his theory, the existence of wormholes has been purely hypothetical. However, Salih’s experiment paves the potential way to achieve the longstanding goal of traversing a rift in space-time.

Counterportation comes from “counterfactual” and “transportation” and while similar to teleportation, the two terms are not synonymous. “Counterportation gives you the end goal of recreating an object in space,” Salih said. “[B] but we can make sure nothing happened.”

Although unfortunately, for Salih to achieve true counterportation, they’ll have to wait a few years. The quantum computers necessary to perform the task don’t exist yet in 2023. “If counterportation is to be realized, an entirely new type of quantum computer has to be built,” Salih said. However, development is underway, and Salih hopes to complete it in three to four years.

Wormholes are a classic trope of science fiction in popular media, if only because they provide such a handy futuristic plot device to avoid the issue of violating relativity with faster-than-light travel. In reality, they are purely theoretical. Unlike black holes—also once thought to be purely theoretical—no evidence for an actual wormhole has ever been found, although they are fascinating from an abstract theoretical physics perceptive. You might be forgiven for thinking that undiscovered status had changed if you only read the headlines this week announcing that physicists had used a quantum computer to make a wormhole, reporting on a new paper published in Nature.

Let’s set the record straight right away: This isn’t a bona fide traversable wormhole—i.e., a bridge between two regions of spacetime connecting the mouth of one black hole to another, through which a physical object can pass—in any real, physical sense. “There’s a difference between something being possible in principle and possible in reality,” co-author Joseph Lykken of Fermilab said during a media briefing this week. “So don’t hold your breath about sending your dog through a wormhole.” But it’s still a pretty clever, nifty experiment in its own right that provides a tantalizing proof of principle to the kinds of quantum-scale physics experiments that might be possible as quantum computers continue to improve.

“It’s not the real thing; it’s not even close to the real thing; it’s barely even a simulation of something-not-close-to-the-real-thing,” physicist Matt Strassler wrote on his blog. “Could this method lead to a simulation of a real wormhole someday? Maybe in the distant future. Could it lead to making a real wormhole? Never. Don’t get me wrong. What they did is pretty cool! But the hype in the press? 

The success of this experiment could change the field of physics forever. 

Additionally, Salih posits that this work is tantamount to the particle acceleration work at the European Organisation for Nuclear Research (CERN). “This work will be in the spirit of the multi-billion ventures that exist to witness new physical phenomena,” Salih said. “[…] But at a fraction of the resources.” 

The ultimate goal of the quantum wormhole experiment is to “explore fundamental questions about the universe,” Salih says. And if successful, the experiment could allow scientists to research “higher dimensions.” 

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