The non-uniformity of paving block quality can result in uneven pavement, which in turn can increase the risk of traffic accidents. This study aims to determine the quality of compressive strength of paving block type Holland from several manufacturers in Semarang City area both manually and massively. As well as knowing why the physical dimensions of paving block type Holland from several producers in Semarang City are not uniform. This research was conducted by taking samples in the paving block manufacturing industry around the city of Semarang. The discussion in this study only covers the type of holland paving block in Semarang City from 4 producers namely CV Waringin Putih Banyumanik Semarang, PT Alam Daya Sakti, Anugerah Block, and Putra Alam Sari. All paving block products tested met or exceeded the minimum value of compressive strength specified in SNI 03- 0691-1998. This indicates that these products have an adequate ability to withstand the given compressive load. The compressive strength test results show that the lowest value was recorded for Anugrah Block at 17.21 MPa, while the highest value was achieved by PT Alam Daya Sakti with 20.112 MPa. The non-uniformity of the physical dimensions of Holland type paving from several producers in Semarang City can be influenced by several factors, including different production processes between producers, the use of different raw materials, and differences in the arrangement of machines or production equipment.

Holland; Masinal; Manual; Paving Block; Semarang

A. Sembiring, “Uji Kuat Tekan Dan Serapan Air Pada Paving Block Dengan Bahan Pasir Kasar, Batu Kacang, Dan Pasir Halus,” Jurnal Ilmiah Teknik Industri Prima (JURITI PRIMA), vol. 1, no. 2, 2018.

P. D. Susanti and A. Sabardila, “Pembangunan Jalan dan Jembatan Penghubung Akibat Bendungan Jlantah di Desa Tlobo dan Karangsari,” Jurnal Administrasi Publik dan Pembangunan, vol. 5, no. 1, pp. 57–71, 2023.

S. Mathavan, K. Kamal, and M. Rahman, “A review of three-dimensional imaging technologies for pavement distress detection and measurements,” IEEE Transactions on Intelligent Transportation Systems, vol. 16, no. 5, pp. 2353–2362, 2015.

D. García, J. T. San-José, L. Garmendia, and P. Larrinaga, “Comparison between experimental values and standards on natural stone masonry mechanical properties,” Constr Build Mater, vol. 28, no. 1, pp. 444–449, 2012.

H. M. Mohamad et al., “Manufacture of concrete paver block using waste materials and by-products: a review,” GEOMATE Journal, vol. 22, no. 93, pp. 9–19, 2022.

I. P. Hastuty and I. S. Sembiringand Nursyamsi, “Comparison of compressive strength of paving block with a mixture of Sinabung ash and paving block with a mixture of lime,” in IOP Conference Series: Materials Science and Engineering, IOP Publishing, 2018, p. 012011.

A. Jamshidi et al., “State-of-the-art of interlocking concrete block pavement technology in Japan as a post-modern pavement,” Constr Build Mater, vol. 200, pp. 713–755, 2019.

T. Kazda and B. Caves, “Pavements,” in Airport Design and Operation, Emerald Group Publishing Limited, 2015, pp. 145–183.

S. Firat, J. M. Khatib, G. Yilmaz, and A. T. Comert, “Effect of curing time on selected properties of soil stabilized with fly ash, marble dust and waste sand for road sub-base materials,” Waste Management & Research, vol. 35, no. 7, pp. 747–756, 2017.

R. H. Borden, “Establishment of subgrade undercut criteria and performance of alternative stabilization measures.,” North Carolina. Dept. of Transportation, 2010.

P. A. Febriani, “Penggunaan Limbah Ampas Tebu (Saccharu officinarum) Sebagai Bahan Baku Pembuat Pori Pada Paving Block Porous,” 2022.

I. P. H. Ningtyas, “Pengaruh Bentuk Paving Block dan Variasi Campuran Kerikil Terhadap Kuat Desak dan Daya Serap Air,” 1999.

H. M. Mohamad et al., “Manufacture of concrete paver block using waste materials and by-products: a review,” GEOMATE Journal, vol. 22, no. 93, pp. 9–19, 2022.

R. H. Lumingkewas, S. P. Hadiwardoyo, and F. A. Hadiwardoyo, “Laboratory innovation to investigate concrete paving blocks compressive strength,” Civil Engineering Journal, vol. 9, no. 11, pp. 2672–2688, 2023.

M. Al Muttaqii et al., “The characterization and physical properties of paving block products over basalt minerals,” in AIP Conference Proceedings, AIP Publishing, 2020.

X. Wang, C. S. Chin, and J. Xia, “Material characterization for sustainable concrete paving blocks,” Applied Sciences, vol. 9, no. 6, p. 1197, 2019.

D. Wattanasiriwech, A. Saiton, and S. Wattanasiriwech, “Paving blocks from ceramic tile production waste,” J Clean Prod, vol. 17, no. 18, pp. 1663–1668, 2009.

R. S. Rollings and G. L. (US), “Concrete block pavements,” 1983.