Study of optical properties, thermal behavior and thermal stability of coated PETN particles with Lithol rubine nano-pigment via ultrasonic technique using Taguchi experimental design method

Q: How can I download an article?

To download an article from SID, first log in to the site, search for the article title, and click on the 'Download Article' option.

Q: How can I download an ISI article?

To download an ISI article on SID, enter the keyword or article title in the search bar, view the relevant results, click on the desired article, and select the 'Download Article' option.

Q: How can I access the SID database?

To access the SID database, visit SID.ir, create an account, and log in to access scientific resources.

Q: Is downloading articles from SID free?

Some articles on SID are available for free, while others require payment. Details are specified on the article's page.

Saberi Masoomeh; BABAEE SAEED; Pourmortazavi Seied Mahdi

مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Journal Paper

Paper Information

Journal: JOURNAL OF NEW MATERIALS Year:2019 | Volume:9 | Issue:3 (35) Page(s): 63-76

Download Full-Text

Persian Verion

View:

527

Download:

Cites:

Information Journal Paper

Title

Study of optical properties, thermal behavior and thermal stability of coated PETN particles with Lithol rubine nano-pigment via ultrasonic technique using Taguchi experimental design method

Author(s)

Saberi Masoomeh | BABAEE SAEED | Pourmortazavi Seied Mahdi | Issue Writer Certificate

Keywords

Optical PropertiesQ1

CoatingQ2

PETNQ1

Ultrasonic methodQ1

Taguchi experimental DesignQ1

Abstract

In this research, in order to Coating pentaerythritol tetranitrate (PETN) particles, estane compound and nano-pigment of red Lithol rubine B 57: 1 (NLR) were used. After structural studies of nanocomposite by infrared (FT-IR) and field emission scanning electron microscopy (FESEM), Taguchi statistical design method was used to investigation and optimization of optical reflectance of nano-composite at 532 nm. The effect of four factors of estane concentration, NLR concentration, stirring speed and ultrasonic bath temperature in three levels on optical reflection was investigated and analysis of variance (ANOVA) showed that NLR concentration with the participation of 79. 36 percent had highest effect. Optimal conditions to achieve a minimum light reflectance were obtained of estane 5 wt%, NLR 7 wt%, stirring speed 400 rpm and ultrasonic bath temperature of 50° C. The lowest light reflectance by analyzing the data variance for optimum conditions was estimated 4. 97 ± 1. 67. The mean experimental result for optical reflectance of the synthesized nano-composite under optimum conditions was 5. 90 percent. Follows, thermal behavior and vacuum stability of the optimal sample was investigated that the results show that the melting point temperature and decomposition of nano-composite are not different compared to the pure PETN Indicating the compatibility of NLR and estane with PETN.

Cites

No record.

References

No record.

Cite

APA: Copy

Saberi, Masoomeh, BABAEE, SAEED, & Pourmortazavi, Seied Mahdi. (2019). Study of optical properties, thermal behavior and thermal stability of coated PETN particles with Lithol rubine nano-pigment via ultrasonic technique using Taguchi experimental design method. JOURNAL OF NEW MATERIALS, 9(3 (35) ), 63-76. SID. https://sid.ir/paper/169963/en

Vancouver: Copy

Saberi Masoomeh, BABAEE SAEED, Pourmortazavi Seied Mahdi. Study of optical properties, thermal behavior and thermal stability of coated PETN particles with Lithol rubine nano-pigment via ultrasonic technique using Taguchi experimental design method. JOURNAL OF NEW MATERIALS[Internet]. 2019;9(3 (35) ):63-76. Available from: https://sid.ir/paper/169963/en

IEEE: Copy

Masoomeh Saberi, SAEED BABAEE, and Seied Mahdi Pourmortazavi, “Study of optical properties, thermal behavior and thermal stability of coated PETN particles with Lithol rubine nano-pigment via ultrasonic technique using Taguchi experimental design method,” JOURNAL OF NEW MATERIALS, vol. 9, no. 3 (35) , pp. 63–76, 2019, [Online]. Available: https://sid.ir/paper/169963/en

Related Journal Papers