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"ABSTRAKBeban lalu lintas yang melebihi yang direncanakan menyebabkan kerusakan jalan terjadi lebih awal. Salah satu penyebab kerusakan ini adalah akibat muatan berlebih pada angkutan truk. Kajian ini melakukan analisis perubahan muatan kendaraan truk hingga melebihi beban muatan yang ditetapkan terhadap pengaruhnya pada umur perkerasan jalan beton. Lokasi penelitian yaitu di Tol Jakarta-Cikampek (km.39), Jalur Pantura di ruas jalan Bypass Jomin Cikampek dan Jalan Raya Cibinong di ruas jalan Mayor Oking Bogor. Data lalulintas selanjutnya dihitung untuk umur perkerasan selama 10 tahun. Prediksi data lalu lintas ini untuk mengetahui tebal perkerasan jalan beton dengan menggunakan metode Bina Marga. Dari analisis data, diperoleh penurunan umur perkerasan pada tebal plat 21 cm untuk beban berlebih mencapai 30% terjadi penurunan umur perkerasan 35%. Bila dilakukan pengalihan muatan truk 2 as ke truk lebih dari 2as sebesar 1,5 kali maka akan terjadi penurunan umur perkerasan 54%. Struktur jalan beton sangat sensitive terhadap kenaikan muatan batas sumbu yang mendekati MST 10 Ton.

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ABSTRACTTraffic load that exceeds the designed road causing damage to occur earlier. One cause of this damage is due to excessive loads on heavy vehicles. This study analyzes changes in heavy vehicle charges to exceed the specified weight of cargo on its influence on service life of concrete pavement. The research location is in Tol Jakarta-Cikampek (km.39), Line North Coast of Java, in Cikampek Bypass road, and Highway Cibinong in Bogor Oking Major road. Traffic data was calculated for the expected design life of 10 years. Prediction of traffic data is to determine the thickness of concrete pavement using the methods of Bina Marga. From the analysis of data, obtained by decreasing the age of pavement on concrete 21 cm thick to reach the 30% overload decreased 35% pavement service life. When done transfer of cargo trucks 2 axles to the truck more than 2as of 1.5 times there will be a 54% reduction in pavement life. The structure of concrete roads is very sensitive to increases in near-axis boundary load 10 tons of MST."

"Thepavement of the nailed-slab system has been proposed as analternative solution for addressing the rigid pavement problem in soft soils.This system is used for developing a rigid pavement. The simple method of using an equivalent modulus of subgrade reaction (k?) in nailed-slab system analysis wasproposed by a previous researcher. This modulus consists of the modulus of subgrade reaction from a plate load test(k) and an additional modulus ofsubgrade reaction due to pile installing (Dk). Theadditional modulus of subgrade reaction has been proposed by some authors. Thedisplacement factor was used in determining the additional modulus of subgradereaction. This factor is difficult to define. In this research, the prototypetest of a nailed slab with single-pile installation was conducted to learn thevalidation of the theory of the additional modulus of subgrade reaction on afull-scale dimension. The prototype was constructed on soft clay, and theconnection between the pile and slab was perfect monolithically. This systemwas loaded by centric load. A new curve of the displacement factor is proposed.Calculated deflections based on thiscurve were compared to the observed deflection andresulted in good agreement with the observation. Hence, it can be used in preliminary design."

"The pavement of the nailed-slab system has been proposed as an alternative solution for addressing the rigid pavement problem in soft soils. This system is used for developing a rigid pavement. The simple method of using an equivalent modulus of subgrade reaction (k’) in nailed-slab system analysis was proposed by a previous researcher. This modulus consists of the modulus of subgrade reaction from a plate load test (k) and an additional modulus of subgrade reaction due to pile installing (k). The additional modulus of subgrade reaction has been proposed by some authors. The displacement factor was used in determining the additional modulus of subgrade reaction. This factor is difficult to define. In this research, the prototype test of a nailed slab with single-pile installation was conducted to learn the validation of the theory of the additional modulus of subgrade reaction on a full-scale dimension. The prototype was constructed on soft clay, and the connection between the pile and slab was perfect monolithically. This system was loaded by centric load. A new curve of the displacement factor is proposed. Calculated deflections based on this curve were compared to the observed deflection and resulted in good agreement with the observation. Hence, it can be used in preliminary design."