แจ้งเอกสารไม่ครบถ้วน, ไม่ตรงกับชื่อเรื่อง หรือมีข้อผิดพลาดเกี่ยวกับเอกสาร ติดต่อที่นี่ ==>
หากไม่มีอีเมลผู้รับให้กรอก thailis-noc@uni.net.th
หากไม่มีอีเมลผู้รับให้กรอก thailis-noc@uni.net.th
Pimchanok Patho. Design and fabrication of biocompatible composite from electronic insulator waste for medical application. Master's Degree(Applied Chemistry). Mae Fah Luang University. Learning Resources and Educational Media Center. : Mae Fah Luang University, 2023.
Design and fabrication of biocompatible composite from electronic insulator waste for medical application
Name: Pimchanok Patho
keyword:
Electronic Insulator
MeSH:
Silica
Classification :.DDC: e-Theses
;
Silica
MeSH:
Aluminum oxide
MeSH:
Electric insulators and insulation
-- 307327
MeSH:
Ceramics in medicine
-- 41621
LCSH:
Silica
LCSH:
Aluminum oxide
LCSH:
Electric insulators and insulation
-- 307327
LCSH:
Ceramics in medicine
-- 41621
Abstract:
Electronic insulators mainly comprise silica (SiO2) and alumina (Al2O3) accounting for 67.25% and 24.81%, respectively. Silica and alumina can be used as components of biomaterials or bioceramics to replace the lost bones of humans and animals. This study aims to determine the methods and suitable conditions for extracting active substances from used electronic insulators and utilizing these substances to form bioceramic materials for prosthetic organs or artificial bones. The optimal conditions for extraction were 3 M NaOH, a 1:20 g/ml ratio of electronic insulator powder and solution, reflux at 90 100 °C for 24 h, and silica precipitation with 5 M HCl at pH 7. The %yield from these extractions was about 8596%. For the formation of bioceramics, the suitable ratio of alumina to silica to hydroxyapatite was 50:30:20. An average pore size of bioceramics at 200900 µm was achieved using resin-based 3D printing by stereolithography. Cytotoxicity assessments showed that cells can survive and reproduce on bone substitutes with bioceramics exhibiting the properties of bone cells. This process added value to insulators. Bioceramics have the potential to replace imported artificial bones.
Mae Fah Luang University. Learning Resources and Educational Media Center
Address:
CHIANG RAI
Email:
library@mfu.ac.th
Name: Thitipone Suwunwong
Role:
Advisor
Created:
2023
Modified:
2024-01-18
Issued:
2024-01-18
วิทยานิพนธ์/Thesis
application/pdf
CallNumber:
e-Theses
eng
DegreeName: Master of Science
Level: Master's Degree
Descipline: Applied Chemistry
Grantor: Mae Fah Luang University
©copyrights Mae Fah Luang University
RightsAccess:
ใช้เวลา
0.034733 วินาที
Pimchanok Patho
| Title | Contributor | Type |
|---|---|---|
| Design and fabrication of biocompatible composite from electronic insulator waste for medical application
มหาวิทยาลัยแม่ฟ้าหลวง Pimchanok Patho | Thitipone Suwunwong | วิทยานิพนธ์/Thesis |
Thitipone Suwunwong
| Title | Creator | Type and Date Create |
|---|---|---|
| Synthesis of pyrazoline derivatives as fluorescent sensor for mercury ion
มหาวิทยาลัยแม่ฟ้าหลวง Thitipone Suwunwong | Narumon Phonrung | วิทยานิพนธ์/Thesis |
| Design and fabrication of biocompatible composite from electronic insulator waste for medical application
มหาวิทยาลัยแม่ฟ้าหลวง Thitipone Suwunwong | Pimchanok Patho | วิทยานิพนธ์/Thesis |