Testing/Case Studies

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Testing/Case Studies

Rhino Carbon Fiber Independent Testing/Case Studies

Rhino Carbon Fiber is independently tested by third party vendors to ensure it is the highest quality products available. Please review the test results and an engineering case study to learn how strong Rhino Carbon Fiber is. The results of the testing are below.

Rhino_testing

DESCRIPTION
Two sets of carbon fiber samples were received for room tempaerture tention testing. They were identified as Rhino® Fiber Horizontals.

MECHANICAL
Two sets of tensile specimens, with a nominal gage width of 1.0 inches, were received already prepared by the client. Prior to testing it was noted that the specimens have uneven gage sections, jagged edges, areas of non-existant fibers (epoxy only), and uneven layering. Testing was performed at room temperature on a servo-hydraulic test stand with guidance from ASTM D3039-08. Specimens were loaded in displacement control at a rate of 0.05 in/min until rupture.

Table 1 (Carbon Fiber Horizontals)

Sample Ultimate Tensile Strength (PSI)
  Rhino Carbon Fiber
1 48,030
2 54,200
3 44,310
4 46,260
5 51,310

RESULTS
The average ultimate tensile strength for Rhino Carbon Fiber equals 48,822 psi. Through tensile testing we are able to determine that Rhino Carbon Fiber Horizontals are substantially stronger that the competition.

DESCRIPTION
One set of carbon fiber samples were received for room temperature tension testing. They were identified as Rhino® Carbon Fiber Verticals.

MECHANICAL
One set of tensile specimens, with a nominal gage width of 1.0 inches, were received already prepared by the client. Prior to testing it was noted that the specimens had uneven gage sections, jagged edges, areas of non-existent fibers (epoxy only), and uneven layering. Testing was performed at room temperature on a servo-hydraulic test stand with guidance from ASTM D3039-08. Specimens were loaded in displacement control at a rate of 0.05 in/min until rupture.

The sample results are presented in Table 01.
Total results from test are presented in Table 02 with comparative results from Fortress Stabilization System’s website (www.fortressstabilization.com/weavetest.php).

Table 1 (Carboon Fiber Verticals)

Sample Ultimate Tensile Strength (PSI)
  Rhino Carbon Fiber
1 49,890
2 64,200
3 53,700
4 44,320
5 42,240
6 56,510
7 37,610
8 46,670
9 63,430
10 53,660
11 45,320
12 58,070
13 48,020
14 61,560
15 41,530
16 57,590
17 40,920
18 52,980
19 54,530
20 58,670

Table 2 (Carboon Fiber Verticals)

 

RESULTS
The average ultimate tensile strength for Rhino Carbon Fiber equals 51,571 psi.
The average ultimate tensile strength for Fortress Carbon Fiber equals 18,136 psi.
Through tensile testing we were able to determine that Rhino Carbon Fiber Verticals are substantially stronger than the competition.

*Results pulled from the Fortress Stabilization System's website
(fortressstabilization.com/weavetest.php).

DESCRIPTION
Two sets of composite samples were received for lap shear testing in accordance with ACI 440.3R-04.

MECHANICAL
All samples were conditioned for a minimum of 40 hours at 20 ± 3°C and 50 ± 5% relative humidity. All samples were tested in similar conditions.

LAP SHEAR TESTING

Five samples were received for lap shear testing in accordance with ACI 440.3R-04 which in turn referred to ASTM D3039. The samples were tested in the same condition that they were received in. After recieving the samples, it was noted that they had uneven and jagged gage sections. The lap area of the samples was uneven and the thickness varied. The samples were then tested on a servo-hydraulic test stand at a crosshead speed of 0.05 millimeters per second.

The sample results are presented in Table 01.

Table 1 (Lap Shear Results)

Sample Overlap
Dimensions
(in)
Shear
Strength
(psi)
Failure
Strain
1 1.034 x 5.55 369 Tension
Failure
2 1.060 x 6.00 156 Tension
Failure
3 0.960 x 5.36 342 Tension
Failure
4 1.085 x 5.05 324 Tension
Failure
5 1.061 x 5.76 218 Tension
Failure
Average -- 282 --
St. Dev. -- 90.7 --

 

RESULTS
Each of the samples did not fail in the lap shear area.

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