Wednesday, March 20, 2013

Case Study: TENAX GP-Flex at Castle Hill Cider

Below is a case study about the installation of TENAX's GP-Flex Ground Protection Solution at Castle Hill Cider in Keswick, VA.
 
LOCATION
Castle Hill Cider
6065 Turkey Sag Road
Keswick, VA 22947

www.castlehillcider.com

Castle Hill was the home of Colonel Thomas Walker, guardian and mentor to Thomas Jefferson. Today, Castle Hill reclaims its glory as a cidery and premiere venue for weddings and special events in Virginia.

PRODUCT Tenax GP-Flex 1800
GP-Flex® has been tested for slip resistance to BS 7976-2 and when tested alongside other slip resistant grass protection meshes, GP-Flex® showed an improvement of over 33% in comparison.
GP-Flex® is manufactured using a unique method of extrusion (patent pending), enabling the incorporation of a slip resistant surface. In addition, by re-designing the profile, TENAX has made the mesh more flexible, enabling quicker installation.
 
THE PROBLEM
Castle Hill Cider recently built a brand new cidery on site! Though this was a wonderful addition, the site was now left with insufficient parking for the increase of visitors to this cidery and tasting room nearby.

THE SOLUTION
After discovering the GPFlex 1800 technology, the cidery purchased 36 rolls from their local distributor, Benner’s Gardens. Their resourceful staff was able to efficiently install the rolls with a minimal amount of tools required.

 
  
CONCLUSIONS
As a result, Castle Hill Cider was able to add 15,919.2 square feet (just over 1/3 of an acre) of permanent visitor parking for their new cidery and tasting room.
GP-Flex enabling the addition of visitor parking
 
ADDITIONAL APPLICATIONS
·         Temporary car parks
·         Temporary wheel chair access (ADA compliant)
·         Temporary access by pedestrians over muddy areas
·         Temporary roadways for cars
·         Outdoor events, shows, exhibitions and concerts
·         Suitable for occasional use as access routes for fire engines and refuse trucks

GP-Flex Technical Specifications
Material     Polyethylene & EVA (foam)
Color          Bi-Color: green & brown / UV Stabilized
Weight        1800 g/m²
Thickness    13 mm
MD Tensile strength      788 lbs. / ft.
MD Yield point elongation   20%
Residual thickness at 70psi  55%
Roll size   6.7’ x 65.0’
Roll weight   159 lbs

Tuesday, February 26, 2013

Technical Report: Impact Tests on Deer Fencing

The TENAX SpA Laboratory recently conducted a series of tests analyzing impact on bi-oriented nets for deer fencing.

The test included an analysis of the TENAX net material and the production process, a description of the TENAX Testing Laboratory, the testing apparatus, and a summary of the results. These main points are summarized below.
 
Characteristics of TENAX nets: the raw material and production process:
Raw material
TENAX nets are produced by the processing of polyolefins. These materials have an exceptionally
high level of resistance to other chemical substances, mold, bacteria and spores. Although derived
from the same family, various classes of polymers exist which differentiate themselves from each
other in a variety of ways. The choice of one polymer against another, combined with the production
process employed, will result in a particular net suitable for a specific purpose. It is possible to improve the basic performance characteristics of the polymer during the manufacturing process. Molecular orientation carried out following extrusion, for example, makes the finished product considerably more resistant to stretching. All net products from the TENAX Group are characterized by a high level of dimensional stability.

Production process
TENAX meshes and nets are produced through the process of polymer extrusion. The two principal
components of polymer extruders are the extrusion "head" and the "die". The head has the function of
directing the liquid polymers towards the die. The die - according to its shape and configuration -
determines the principal characteristics of the net or the perforated membrane during extrusion. The
result of the extrusion process can be the finished net or a semi-finished product ready for further
stages of manufacturing.

The molecular orientation of the polymers provides a noticeable increase in the tensile strength of the
net. For this reason some types of net undergo a process of longitudinal stretching during which
orientation of the molecules takes place. The nets manufactured in this way (known as 'monooriented') have the benefit of improved mechanical characteristics in the direction of the stretching.

The transversal orientation is a successive process similar to the above, but which takes place in a
transverse direction. In this way the net which has already been stretched in a longitudinal direction is
now stretched in the transverse direction - resulting in a product which is both lightweight and
extremely resistant in both directions. Nets produced in this way are known as 'bi-oriented' or
"stretched nets".

Introduction: TENAX Testing Laboratory
The modern testing instrumentation and the highly specialized personnel which together form the
TENAX Laboratory, make it one of the most advanced facilities of its kind in the world. TENAX Lab is renowned not only for its excellence in product development, but also in design support testing, the development of new testing methods, and in basic and applied research. Laboratory tests are performed with the most advanced equipment, some of which having been specifically developed by TENAX. The TENAX laboratory is capable of performing tests to measure mechanical and hydraulic properties as well as the durability of geosynthetic products in accordance with standard international methods.
 
Testing apparatus
The impact trial tests have been conducted with wood empty box of dimension 0.95 x 1.10 meter.
The test specimens have been blocked on the border with screws and wood elements; the
tests have been carried out with the trial load  of weight 150 lbs dropped down from the
following height: 0.20, 0.40 and 1.00 meter.
 
The product utilized for these impact tests have been:
- Tenax C-FLEX: 80 g/m² Aperture MD x TD: 44 x 49 mm
- Tenax C-FLEX P: 110 g/m² Aperture MD x TD: 44 x 49 mm
- Tenax RANCH: 140 g/m² Aperture MD x TD: 27 x 42 mm
- Tenax MILLENIUM: 200 g/m² Aperture MD x TD: 33 x 50 mm
- Greek Supplier: FENCE 1: 127 g/m² Aperture MD x TD: 35 x 35 mm
- Greek Supplier: FENCE 2: 60 gr/m² Aperture MD x TD: 45 x 45 mm

Summary results
 
These results demonstrate that even though plastic fence product weights might be similar, the type of raw materials used and the production process play a key role in the factor that best represents quality fence and nets; breaking strength. The TENAX products proved to be stronger with higher breaking strengths, when compared to competitive nets with similar (if not, higher) weights.


Monday, February 18, 2013

President Obama's "Fix it First" Program

During the 2013 State of the Union Address on February 11, President Obama proposed the "Fix it First" program to address the Nation's need for reinvestment in its crumbling infrastructure, such as roads and bridges. This was proposed in an effort to improve the quality of life for America's citizens, as well as for the addition of jobs in the United States.

"I propose a 'Fix-It-First' program to put people to work as soon as possible on our most urgent repairs, like the nearly 70,000 structurally deficient bridges across the country," President Obama said during the State of the Union address.

Long-term transportation and infrastructure spending mean a boost in the construction market, a market in which Tenax Corporation has been serving since 1987. Tenax Corporation manufactures and distributes a wide range of construction safety solutions, from warning barriers and safety fence, to screens and rebar caps.

Monday, November 26, 2012

Resin Identification Codes

Tenax manufactures all of its fencing using virgin plastic materials, specifically high density polyethylene and polypropylene. Respectively, the resin identification code (RIC) used to identify each of these plastics is 2 and 5.

The resin identification code system is a set of symbols placed on plastics to identify the polymer type. It was developed by the Society of the Plastics Industry in 1988, and is used is to allow efficient separation of different polymer types for recycling.

When the number is left off, the symbol is known as the universal recycling symbol, indicating generic recyclable materials.

Click here to read an interesting editorial from PlasticNews.com, commenting on the effectiveness of the current RIC system.

Monday, November 5, 2012

Hurricane Sandy

Last week, the East Coast was hit by Hurricane Sandy's wrath. Being based in Baltimore, Maryland, Tenax and our employees felt the effects of this terrible storm. Though we were fortunate enough to only have suffered power outages and were able to reopen on Wednesday without any flood or property damage, not everyone was this lucky. According to the Huffington Post article "Hurricane Sandy's Economic Damage Could Reach $50 Billion, Eqecat Estimates", "...Sandy may have caused between $30 billion and $50 billion in economic losses, including property damage, lost business and extra living expenses. The cost to insurance companies could run as low as $10 billion and as high as $20 billion." If costs hit $50 billion, Sandy would become the second costliest storm after Katrina in 2005.

On behalf of Tenax employees, we would like to say that our thoughts are with everyone who is struggling as a result of Hurricane Sandy’s devastation. Our sales team is available to assist with suggesting Tenax products that can help with the clean up and rebuilding of the storm ravaged areas.

Please continue to be safe and remember to be thankful for what you have.

Wednesday, October 24, 2012

Snow Fence


Did you know that mechanical snow removal costs about 100 times more than trapping snow with fence? According to a study conducted by the National Research Council Strategic Highway Research Program, 
A well-planned snow fence program can provide a solution to blowing snow problems, and can be an excellent long-term investment. In the 1970s, the Wyoming Department of transportation reduced snow and ice removal costs by more than one-third ... Data available from the Wyoming study shows that storing snow with snow fences costs three cents a ton over the 25-year life of the fence, compared to three dollars a ton for moving it.
 
Later on in the report, advantages of post-supported snow fence, such as our plastic snow fence, are mentioned:
 Advantages
  • Occupies least land area
  • Suitable for any height of fencing
  • Less susceptible to damage by snow creep on steep slopes
  • Suitable for permafrost soils
Thankfully, distributors and retailers have been preparing for this season by building their inventories of Tenax Snow Fence. If you need information on where to buy, please contact our customer service at 1.866.356.8495. To see the snow fence that we have to offer, please view this brochure and contact us with any questions!



Click here for the full report.

Monday, August 2, 2010

Metal Alternative Fencing

Looking for a cheaper alternative to metal fencing? Don't want the fuss of dealing with sharp corners and rusting metal? Tenax Corporation has the perfect assortment of products for you! All of our metal alternative fencing are made of plastic. Benefits of our plastic fence include:

  • Look and durability of metal fence
  • Will not rust, rot or corrode
  • Easy to install
  • Cost-efficient
  • Recyclable
  • Keeps shape and form better than metal fence
Again, if you would like more information, please visit Tenax at http://www.tenaxus.com/, or comment to request more information!



NOTE: Products Shown:
Hardware Fence (standing to the left)
Millennium (standing in the middle)
Multi-Purpose (standing to the right)
Poultry Fence (laying int he front)