We use cookies to enhance your experience. By continuing to browse this site you agree to our use of cookies. More info.

While a large number of resin and metal materials demonstrate plastic deformation behavior, ceramic and glass materials exhibit almost no plastic deformation. Rather, they are prone to brittle failure. When acquiring the material strength of brittle materials using short-time and high-speed measurement, the resulting strength value and any data scatter could vary depending on the testing machine’s sampling speed.

This experiment aims to evaluate the effect of sampling speed on measured strength values. It determines this through the performance of strength tests on resin and ceramic samples, using data processing to adjust sampling speed after the test.

An Autograph AGX™-10 kNV precision universal testing machine (from Shimadzu Corporation) was used to perform a tensile test on an acrylic resin. Testing was undertaken at the instrument’s maximum speed of 3000 mm/min. Sampling speed was set to 10000 Hz.

Table 1 and Table 2 show additional information on specific test conditions and the specimen respectively, while Figure 1 displays a picture of the test itself. Once the test had been completed, data thinning processing was used to acquire data corresponding to four sampling speeds (5000 Hz, 1000 Hz, 100 Hz, 20 Hz).

Table 1. Test Conditions. Source: Shimadzu Scientific Instruments

Table 2. Specimen Details. Source: Shimadzu Scientific Instruments

Figure 1. Tensile Test of the Resin Specimen. Image Credit: Shimadzu Scientific Instruments

Figure 2(a) displays results from measurements taken at 10000 Hz, while Figures 2(b) to 2(e) include results for each of the sampling speeds after the data thinning post process had been completed. Because this experiment used a short measurement time (approximately 0.5s), a notable discrepancy was observed in the force peak value between data that was obtained at 20 Hz and data that was obtained at 100 Hz.

Figure 2. Test Results. Image Credit: Shimadzu Scientific Instruments

Table 3 provides details on tensile strength at each individual sampling speed, alongside the strength decrease ratio compared to the strength at 10000 Hz - set at the standard value.

Table 3. Test Results Sorted by Sampling Speed (Average Value, Number of Tested Samples: 5). Source: Shimadzu Scientific Instruments 

* Ratio of strength decrease to strength at 10,000 Hz as standard.

The decrease in strength from 10000 Hz is on the order of 1% at 100 Hz and 4% at 20 Hz. This is the result of an inaccurate peak value detection. Because of this inaccuracy, a minimum sampling speed of 1000 Hz is required if the high-speed tensile strength of acrylic resin is to be correctly evaluated.

An Autograph AGX™-100 kNV precision universal testing machine (from Shimadzu Corporation) was used to perform a compression test of an alumina sample. In order to protect the compression plates, metal spacers were used during this test. Test speed was set to the maximum value of 1500 mm/min while sampling speed was set at 10000 Hz.

Table 4 and Table 5 display additional information on specific test conditions and the specimen respectively, while Figure 3 includes an image of the test itself. Following the test, data thinning processing was, once again, used to generate data corresponding to four different sampling speeds (5000 Hz, 1000 Hz, 100 Hz, 20 Hz).

Table 4. Test Conditions. Source: Shimadzu Scientific Instruments

Table 5. Specimen Details. Source: Shimadzu Scientific Instruments

Figure 3. Compression Test. Image Credit: Shimadzu Scientific Instruments

Figure 4(a) displays results acquired at 10000 Hz, while Figures 4(b) to 4(e) show results at each of the different sampling speeds processed. The utilization of shorter measurement time when compared to that of the tensile test of resin (0.04 s) led to a considerable discrepancy in the force peak value at a sampling speed of 1000 Hz.

Figure 4. Test Results. Image Credit: Shimadzu Scientific Instruments

Table 6 displays compressive strength and standard deviation at each of the four sampling speeds, along with the strength decrease ratio in comparison with the 10000 Hz standard value. Data shown in Table 6 suggests that lower sampling speeds result in higher standard deviation and increased data scatter.

Table 6. Test Results Sorted by Sampling Speed (Average Value, Number of Tested Samples: 5). Source: Shimadzu Scientific Instruments

* Percentage of strength decrease from strength at 10,000 Hz as standard.

It should also be noted that the material strength values acquired for the sampling  speeds of 1000 Hz, 100 Hz and 20 Hz were all calculated with an error higher than 1% when compared with the strength standard value at 10000 Hz. It can be concluded that this test requires a sampling speed of 5000 Hz or higher in order to accurately evaluate material strength.

This experiment was high speed strength tests performed on ceramic and materials, with relationships measured between sampling speeds and measured strength values.

The results illustrate that sampling speed is key for accurate evaluation of strength when performing high speed test characterized by a short measurement time on brittle materials.

The Shimadzu AGX-V easily meets this requirement and is able to correctly detect force peak and thus, material strength. The instrument comfortably facilitates high speed tests as well as high sampling speeds up to a maximum of 10000 Hz.

This information has been sourced, reviewed and adapted from materials provided by Shimadzu Scientific Instruments.

For more information on this source, please visit Shimadzu Scientific Instruments.

Please use one of the following formats to cite this article in your essay, paper or report:

Shimadzu Scientific Instruments. (2021, January 11). Sampling Speed and Its Influence on Strength Value. AZoM. Retrieved on December 22, 2021 from https://www.azom.com/article.aspx?ArticleID=20006.

Shimadzu Scientific Instruments. "Sampling Speed and Its Influence on Strength Value". AZoM. 22 December 2021. <https://www.azom.com/article.aspx?ArticleID=20006>.

Shimadzu Scientific Instruments. "Sampling Speed and Its Influence on Strength Value". AZoM. https://www.azom.com/article.aspx?ArticleID=20006. (accessed December 22, 2021).

Shimadzu Scientific Instruments. 2021. Sampling Speed and Its Influence on Strength Value. AZoM, viewed 22 December 2021, https://www.azom.com/article.aspx?ArticleID=20006.

Do you have a question you'd like to ask regarding this article?

AZoM speaks with Professor Andrea Fratalocchi from KAUST about his research that focuses on a previously unrecognized aspect of coal.

AZoM talks to Dr. Anne Meyer about her novel research around the 3D printing of biofilms

AZoM talks to Dr. Oleg Panchenko about his work with the Lightweight Materials and Structures Laboratory in SPbPU, and their project that looks to create a new lightweight footbridge employing a novel aluminum alloy and friction stir welding technique.

The X100-FT is a version of the X-100 universal testing machine customized for fiber testing. However, its modular design allows for adaptation to other test types.

MicroProf® DI optical surface inspection tool for semiconductor applications enables inspection of structured and unstructured wafers during the entire manufacturing process.

The StructureScan Mini XT is the perfect implement for concrete scanning; it can accurately and quickly identify depth and position of metallic and non-metallic objects within concrete.

AZoM.com - An AZoNetwork Site

Owned and operated by AZoNetwork, © 2000-2021