Innovative Products and Technologies Technology Offers Page 2

Including commercially available innovative products and technologies

Graft Polymer UK Ltd posted this:

Producing PE125 using GRAFTALEN™ MP-UHHD. Consumer properties, which should be taken into consideration: 1) The unique toughness of the material (the highest rate of all known polymers), namely, Over 160 kJ/m2 2) High abrasion resistance 3) Low friction coefficient (self-lubricating) 4) High resistance to chemically aggressive reagents (media) 5) High creep resistance (geometric stability) Ordinary way - This type of process is quite expensive. Production of PE125, in compounding with bimodal PE100, from 8 to 45% of supermolecular polyethylene is injected, reaching dispersion by multiple compounding (4 stages) in an extruder cascade (XXXXX technology). GRAFTALEN™ MP-UHHD (alloy) is a MELT-PROCESSABLE concentrate of UHMWPE on an HDPE matrix. As HDPE, you can choose the most affordable HDPE (pipe) grade. To obtain polyethylene according to the standards PE125 (with a minimum strength indicator MRS> 13.8-14 MPa, in comparison PE100 has MRS only 10 MPa), a significant improvement in the resistance against hydrostatic pressure is required. For a conventional bimodal HDPE, this indicator is difficult to achieve, since it directly correlates with the impact strength/density indicators and with simple extrapolation, it turns out that the required indicator for PE125 simply does not reach the bimodal HDPE matrix. Another problem - the difficulty in maintaining the geometric stability of the pipe (the thickness at the top of the pipe is often less than at the bottom) due to the sagging effect (the phenomenon of the gravitational flow of a polymer melt). This phenomenon is more pronounced for thick-walled pipes. The specific blend of HDPE with UHMWPE allows solving these problems above.
Project: Innovative pilot production modified compounds by PE125 standard for multifunctional applications.

Michael Burlakov posted this:
Scientist at Private person

Now, we have with you the all chances to create a unique company for implementing worldwide of a new science-intensive technology with many applications (see below). I invite you to participate in realization of this ambitious project in any capacity. Agree that far from often appears a new production company, when at the time of its creation becomes clear that it has all chances to become a world leader in its future activity. This is possible, obviously, only in the case that the basis for the activities of such a company will be the unique science-intensive know-how, the implementation package of which already exists. This is the case here for your consideration. The author of this letter (further - the author) recently completed his years-long work on the information-software package of materials (ISPM) on implementing a new science-intensive network technology with many applications called "Information technology of automation of control of discrete technological and information processes (IT AC DTIP)", the founder of which he is. With the presentation of both the technology itself and the ISPM for its implementation, you can familiarize here: . More detailed information on this project you can learn from two English-Russian sites of the author:"Promotion Center of IT AC DTIP" ( and "Implementation Center of IT AC DTIP" ( I would like to draw your attention to the fact that this ISPM includes 11 multilingual optimizing software tools in the ordinary and network performances that allow to provide international network outsourcing services on optimal controlling the discrete processes for many purposes. So, for practical implementation of this technology, there are not required at all the financial investments for working out necessary for this means, since the latter ones already exist.
Information technology of automation of control of discrete technological and information processes (IT AC DTIP)

Laijo Jose posted this:
Manager-Tech Transfer at Centre For Future (CFF)

An advanced and cost effective bioresorbable, biocompatible polymer composite for bone soft tissue fixation has been developed, and their use in preparing different orthopedic devices that serves the purpose of fixation of soft tissue injuries and low-load bearing bone fractures. The use of the given bioresorbable polymer composite in orthopedic devices is an attempt to replace the traditional metallic implants and making it accessible to masses at affordable prices, and therefore overcome the limitations of currently available bioresorbable orthopedic devices in the market. The technology produces a novel bioresorbable, biocompatible polymer composite for bone soft tissue fixation. The polymer composite biomaterial is composed of bioresorbable polymer such as poly-ε-caprolactone (PCL), natural fiber silk fibroin and an osteoconductive component like Magnesium oxide (MgO) in nanoparticle form and it can be used to prepare different orthopedic devices. The silk fiber of 20% and MgO nanoparticles in concentration of 10% were mixed together with PCL as base polymer in twin-screw extruder to produce composite orthopedic biomaterial. The newly developed bone screw is having a design with screw head shape, thread-tip design, thread profile and volume. It is found that millions of screws are being used for bone or soft-tissue fixations per year and the need of such fixations devices in world orthopedic market is ever-growing. The cost effective bioresorbable composite device thus made is also having wider clinical applications with its higher bioactivity (biomineralization), biocompatibility, infection resistivity and proper bone remodeling properties.