Abstrak - Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
BAB 1 Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
BAB 2 Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
BAB 3 Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
BAB 4 Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
BAB 5 Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
COVER Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
DAFTAR PUSTAKA Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
LAMPIRAN Muhammad Gede Zaenal Mutaqien
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
Terbatas  Irwan Sofiyan
» Gedung UPT Perpustakaan
To achieve the target of zero net emissions by 2060, lithium-ion batteries
are essential for future renewable energy sources. Numerous studies have
investigated the parameters of spot welding between battery cells and tab
connectors, focusing on welding quality and tensile strength.
This research aims to analyse the effects of varying the number of spot
welds on 18650 battery cell temperature and mechanical properties, using peel
tests assisted by digital microscopy to further examine the weld joints. The spot
welding procedure began with 2 spots, increasing in multiples of two, and
concluded with 10 spots. The impact of varying the number of spot welds on
battery temperature was assessed through a discharge performance test, with
temperature data collected using a thermal imaging camera. Additionally, peel
tests were conducted to evaluate the mechanical properties of the weld joints,
with digital microscopy providing detailed images of the weld joint conditions,
offering new perspectives compared to existing research.
The results of this study indicated a decrease in maximum battery
temperature from 2 to 6 spots, followed by a sudden increase from 8 to 10 spots,
with the latter exhibiting higher temperatures than the 2-spot configuration. Peel
test results demonstrated that the weld joint strength was highest at 6 spots, with
the greatest breaking force and displacement, and lowest at 4 spots. Microscopic
images revealed the welding quality, which influenced the peel test outcomes.