Research Article
Acceleration of Compaction Test by Using Heat Induction on Metals That Are Electrically Electrified
@INPROCEEDINGS{10.4108/eai.24-10-2023.2342290, author={Nahesson Panjaitan and Suhairiani Suhariani and Enny Keristiana Sinaga and Arwadi Sinuraya and Hanna Swesy Marbun and Helga Jenni Panjaitan and Lyana Christine Siahaan}, title={Acceleration of Compaction Test by Using Heat Induction on Metals That Are Electrically Electrified}, proceedings={Proceedings of the 5th International Conference on Innovation in Education, Science, and Culture, ICIESC 2023, 24 October 2023, Medan, Indonesia}, publisher={EAI}, proceedings_a={ICIESC}, year={2024}, month={1}, keywords={soil density moisture content dry weight heat induction}, doi={10.4108/eai.24-10-2023.2342290} }- Nahesson Panjaitan
Suhairiani Suhariani
Enny Keristiana Sinaga
Arwadi Sinuraya
Hanna Swesy Marbun
Helga Jenni Panjaitan
Lyana Christine Siahaan
Year: 2024
Acceleration of Compaction Test by Using Heat Induction on Metals That Are Electrically Electrified
ICIESC
EAI
DOI: 10.4108/eai.24-10-2023.2342290
Abstract
The density of clay soil is tested in the laboratory using standard soil compaction methods or modified methods. The results of the compaction test from the two methods are in the form of a graph of the relationship between the maximum dry weight of the soil and the optimal air content of the soil. Compaction testing in the laboratory is carried out with a minimum of 5 repetitions using the addition of water for each repetition. The time required to complete soil compaction testing in the laboratory is at least two days, and requires approximately 2.5 kilograms of soil samples for 1 test. This research was conducted to shorten the time and make efficient use of soil samples to obtain soil density values using heat induction through metal. With this research, it is hoped that an alternative model for testing the density of clay soils is fast and efficient.