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"Konsep umur rencana yang bertahan hingga 50 tahun untuk perkerasan aspal (perpetual pavement) tanpa melakukan perbaikan yang bersifat mayor telah dipraktikan dibeberapa tempat di Amerika Serikat. Konsep ini mengusung tema "Long lasting asphalt pavement"..."

"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."

"Kinerja pelayanan jalan dapat dinyatakan dalam Indeks Kekasaran Permukaan atau International Roughness Index (IRI) yang dikembangkan oleh Bank Dunia. IRI merupakan parameter kekasaran yang dihitung dari jumlah kumulatif naik-turunnya permukaan arah profil memanjang pada jarak permukaan yang diukur dan digunakan untuk mengevaluasi kinerja perkerasan yang dapat dinilai dari kualitas berkendara di atas permukaan jalan. IRI dinyatakan dalam satuan meter per kilometer (m/km). Pada umumnya, jika umur jalan dan beban lalu lintas meningkat, kerusakan jalan semakin bertambah sehingga nilai IRI juga meningkat. Pada perencanaan jalan, beban lalu lintas dan tipe tanah dasar adalah faktor utama yang menentukan nilai structural number, yang merupakan angka yang digunakan untuk menentukan ketebalan lapisan perkerasan. Jalan yang dibangun sesuai kebutuhan lalu lintasnya memiliki kinerja pelayanan yang optimal selama umur layanannya. Program HDM-III (Highway Development and Management) telah diadopsi banyak negara dalam perencanaan jalan untuk memprediksi nilai IRI jaringan jalan setiap tahun selama periode analisa sehingga dapat dianalisa cara yang tepat dalam pembangunan jalan. Parameter yang digunakan pada kajian ini adalah tipe tanah dasar, curah hujan, beban lalu lintas berdasarkan klasifikasi Asphalt Institute, faktor pertumbuhan lalu lintas, dan umur layanan jalan. Parameter tersebut dinyatakan dalam angka. Korelasi antara parameter tersebut terhadap nilai IRI dianalisa untuk mendapat informasi mengenai seberapa besar parameter-parameter tersebut berpenngaruh. Hasilnya menunjukan bahwa structural number dan umur layanan jalan secara signifikan mempengaruhi nilai IRI, sementara tipe tanah dasar dan curah hujan memiliki pengaruh cukup kecil terhadap nilai IRI.

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The performance of road service ability is stated by the International Roughness Index (IRI) which was developed by World Bank. IRI is used to define a characteristic of the longitudinal profile of a traveled wheeltrack and is accepted for evaluating pavement serviceability, especially its riding quality. The commonly recommended units are meters per kilometer (m/km). Generally, as the age of pavement increases, its condition deteriorates and its IRI values increases. In road planning, traffic loading and subgrade type are the main factors determining the structural number, as one of the major inputs for flexible pavement layer thickness. The road which is well-constructed has the optimum serviceability performance over its service age. The Highway Development and Management (HDM) program has been adopted by many countries in road planning for predicting their road network's IRI values over the analysis period so they can analyze the convenient way for their road construction. The parameters used in this study are subgrade type, rainfall, traffic loading (normal loading and overloading) based on Asphalt Institute classification, traffic growth, and road service age. Those parameters are assumed in numbers. The correlation of those parameters to IRI values are analyzed to get information about the more and the less affected parameters. The results show that the structural number and road service age significantly impact the roughness, while subgrade type and rainfall have little influence on the IRI values."

"Kinerja pelayanan jalan dapat dinyatakan dalam Indeks Kekasaran Permukaan atau International Roughness Index (IRI) yang dikembangkan oleh Bank Dunia. IRI merupakan parameter kekasaran yang dihitung dari jumlah kumulatif naik-turunnya permukaan arah profil memanjang pada jarak permukaan yang diukur dan digunakan untuk mengevaluasi kinerja perkerasan yang dapat dinilai dari kualitas berkendara di atas permukaan jalan. IRI dinyatakan dalam satuan meter per kilometer (m/km). Pada umumnya, jika umur jalan dan beban lalu lintas meningkat, kerusakan jalan semakin bertambah sehingga nilai IRI juga meningkat.Pada perencanaan jalan, beban lalu lintas dan tipe tanah dasar adalah faktor utama yang menentukan nilai structural number, yang merupakan angka yang digunakan untuk menentukan ketebalan lapisan perkerasan. Jalan yang dibangun sesuai kebutuhan lalu lintasnya memiliki kinerja pelayanan yang optimal selama umur layanannya.Program HDM-III (Highway Development and Management) telah diadopsi banyak negara dalam perencanaan jalan untuk memprediksi nilai IRI jaringan jalan setiap tahun selama periode analisa sehingga dapat dianalisa cara yang tepat dalam pembangunan jalan.Parameter yang digunakan pada kajian ini adalah tipe tanah dasar, curah hujan, beban lalu lintas berdasarkan klasifikasi Asphalt Institute, faktor pertumbuhan lalu lintas, dan umur layanan jalan. Parameter tersebut dinyatakan dalam angka. Korelasi antara parameter tersebut terhadap nilai IRI dianalisa untuk mendapat informasi mengenai seberapa besar parameter-parameter tersebut berpenngaruh.Hasilnya menunjukan bahwa structural number dan umur layanan jalan secara signifikan mempengaruhi nilai IRI, sementara tipe tanah dasar dan curah hujan memiliki pengaruh cukup kecil terhadap nilai IRI.

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The performance of road serviceability is stated by the International Roughness Index (IRI) which was developed by World Bank. IRI is used to define a characteristic of the longitudinal profile of a traveled wheeltrack and is accepted for evaluating pavement serviceability, especially its riding quality. The commonly recommended units are meters per kilometer (m/km). Generally, as the age of pavement increases, its condition deteriorates and its IRI values increases.In road planning, traffic loading and subgrade type are the main factors determining the structural number, as one of the major inputs for flexible pavement layer thickness. The road which is well-constructed has the optimum serviceability performance over its service age.The Highway Development and Management (HDM) program has been adopted by many countries in road planning for predicting their road network?s IRI values over the analysis period so they can analyze the convenient way for their road construction.The parameters used in this study are subgrade type, rainfall, traffic loading (normal loading and overloading) based on Asphalt Institute classification, traffic growth, and road service age. Those parameters are assumed in numbers. The correlation of those parameters to IRI values are analyzed to get information about the more and the less affected parameters.The results show that the structural number and road service age significantly impact the roughness, while subgrade type and rainfall have little influence on the IRI value"

"Drawing on years of practical on-site experience, this book presents a new method for controlling "bridge-head bumping" in soft soil ground. Based on deformation compatibility and control theory of structure, it proposes strategies for improving the design method of soft soil ground and the effective "bridge-head bumping" control method. Soft soil ground is chiefly characterized by a large void ratio, high compressibility, high water content, low impermeability, low strength, strong structure and high sensitivity. As a result, it has pronounced rheological properties, and controlling "bridge-head bumping" in soft soil ground is essential to control the amount of soil rheology-induced unstable successive settlement. The book offers extensive information on this and related topics, making it a valuable guide for engineers in Civil Engineering and Geotechnical Engineering alike."