cover
Article Per Year (5 Year)
All
Home Page
OAI Link
Editorial Team
Contact
Reviewer
Google Scholar
Contact Name
-
Contact Email
-
Phone
-
Journal Mail Official
-
Editorial Address
Kampus Sekaran, Gunungpati, Semarang 50229
Location
Kota semarang,
Jawa tengah
INDONESIA
Jurnal Teknik Sipil dan Perencanaan
Published by Universitas Negeri Semarang
ISSN : -     EISSN : 25031899     DOI : https://doi.org/10.15294/jtsp
Core Subject : Engineering,
Civil Engineering, Building, Construction & Architecture
Jurnal Teknik Sipil dan Perencanaan (JTSP) is a scientific journal which biannualy published in April and October. We firstly published in 1999 as national journal of Department of Civil Engineering, Faculty of Engineering, Universitas Negeri Semarang. In 2016, JTSP was indexed in DOAJ with Green Tick critera. And in 2018, JTSP expands its range of article quality and publication through publishing English-language articles.
Arjuna Subject : -
Articles 774 Documents
 49   50   51   52   53 
PEMILIHAN DISTRIBUSI PROBABILITAS PADA ANALISA HUJAN DENGAN METODE GOODNESS OF FIT TEST Upomo, Togani Cahyadi; Kusumawardani, Rini
Jurnal Teknik Sipil dan Perencanaan Vol 18, No 2 (2016)
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v18i2.7480

Abstract

Rainfall event is a stochastic process, so to explain and analyze this processes the probability theory and frequency analysisare used. There are four types of probability distributions.They are normal, log normal, log Pearson III and Gumbel. To find the best probabilities distribution, it will used goodness of fit test. The tests consist of chi-square and smirnov-kolmogorov. Results of the chi-square test for normal distribution, log normal and log Pearson III was 0.200, while for the Gumbel distribution was 2.333. Results of Smirnov Kolmogorov test for normal distribution D = 0.1554, log-normal distribution D = 0.1103, log Pearson III distribution D = 0.1177 and Gumbel distribution D = 0.095. All of the distribution can be accepted with a confidence level of 95%, but the best distribution is log normal distribution. Kejadian hujan merupakan proses stokastik, sehingga untuk keperluan analisa dan menjelaskan proses stokastik tersebut digunakan teori probabilitas dan analisa frekuensi. Terdapat empat jenis distribusi probabilitas yaitu distribusi normal, log normal, log pearson III dan gumbel. Untuk mencari distribusi probabilitas terbaik maka akan digunakan pengujian metode goodness of fit test. Pengujian tersebut meliputi uji chi-kuadrat dan uji smirnov kolmogorov. Hasil pengujian chi kuadrat untuk distribusi normal, log normal dan log pearson III adalah 0.200, sedangkan untuk distribusi gumbel 2.333. Hasil pengujian smirnov kolmogorov untuk distribusi normal dengan nilai D = 0.1554, distribusi log normal dengan nilai D = 0.1103, distribusi log pearson III dengan nilai D = 0.1177 dan distribusi gumbel dengan nilai D = 0.095. Seluruh distribusi dapat diterima dengan tingkat kepercayaan 95%, tetapi distribusi terbaik adalah distribusi log normal.
Experiment of Pullout Expansion Anchor in Installation Cast in Place and Post Installed with Concrete Breakout Failure Huda, Amirul; Apriyatno, Henry
Jurnal Teknik Sipil dan Perencanaan Vol 23, No 1 (2021)
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v23i1.26246

Abstract

Abstract: The use of anchors in construction is gaining popularity to connect steel and concrete constructions, and to transmit tensile loads acting onto the concrete. This research aims to find out the difference in the strength of anchor based on two methods of installations that are cast in place compared to post installed with the influence of effective depth, diameter of anchor and quality of concrete, and failure of concrete breakout. Expansion anchor used in this study is "Sanko" M12x100 and ready-mix concrete PT Bonindo Ungaran, fc 25 MPa with 6 pieces of test specimens of 300x300x150 mm. Each specimen has 4 anchors with a distance between the anchors of 100 cm, the distance between the anchors to the edge of the concrete 100 mm, and the depth of installation (hef) of 60 mm. The result of the study is the predicted value of the anchor pullout capacity with the failure of concrete breakout due to the theoretical pullout, namely 42,223 N, anchor pullout test results with cast in place method of 40,574 N and post installed method by 37,494 N. Tensile strength tests (material) of anchor (fy) 338 MPa, for flat concrete compressive strength strength of (f’c) 25,698 MPa. The results of the cast in place pullout test are larger and better than post installed (40574 N37494 N). Failure that occurred in cast in place method is a failure of concrete breakout and post installed method has occurred slip. Failures that occur are relevant to the theory.
ANALISIS DEFORMASI DUA DIMENSI PADA RAFT FOOTING DI ATAS TANAH LUNAK AKIBAT BEBAN BANGUNAN DENGAN MENGGUNAKAN METODE ELEMEN HINGGA Irdhiani, .
Jurnal Teknik Sipil dan Perencanaan Vol 9, No 1 (2007): Jurnal Teknik Sipil & Perencanaan
Publisher : Semarang State University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v9i1.6923

Abstract

The main problem in design of building structure on soft soil is very big degradation. One of the alternative to reduce the degradation is to reduce the building weight by using lighter materials both for the upper structure and under structure on hoard. In this problem, light material of styrofoam is used as concrete mixture and as filler subtance for hoard. The percentage of styrofoam to concrete used in this research are 40 %, 60 %, 80 % and 100 % of the mix concrete. The deformation pattern due to the building weight is analized using Plaxis software version 7.0 with modeling of Mohr-Coulomb soil on three conditions of soil water face, that are water face deeply located, in base of raft footing, and in ground surface. The result of this research shows the higher building total weight, the higher vertical and horisontal transferring. For 100% styrofoam arise contrarily vertical transferring with the other hoard because of building total weight is smaller than the weight of dig ground in 2.45 meter depth.Permasalahan utama dalam perancangan struktur bangunan di atas tanah lunak adalah penurunan yang cukup besar. Salah satu alternatif untuk mereduksi penurunan yang terjadi yaitu mereduksi berat bangunan, antara lain menggunakan material yang lebih ringan baik pada struktur bagian atas maupun pada timbunan. Dalam masalah ini, material ringan yang digunakan adalah styrofoam yang digunakan sebagai campuran beton maupun sebagai bahan pengisi untuk timbunan. Penelitian ini menggunakan beton styrofoam dengan persentase styrofoam 40 %, 60 %, 80 % dan 100 % dari campuran beton. Pola deformasi akibat berat bangunan tersebut dianalisis menggunakan software Plaxis versi 7,0 dengan pemodelan tanah Mohr-Coulomb pada tiga kondisi muka air tanah yaitu muka air terletak sangat dalam, di dasar fondasi tipe raft footing dan di permukaan tanah. Hasil penelitian menunjukkan bahwa semakin besar total berat bangunan maka semakin besar perpindahan vertikal dan horisontal yang terjadi. Untuk beton styrofoam dengan persentase styrofoam 100% terjadi perpindahan vertikal yang berlawanan arah dengan bahan timbunan lainnya yang disebabkan total berat bangunannya lebih kecil daripada berat tanah galian sedalam 2,45 meter.
BATA BETON BERLUBANG DARI ABU BATUBARA (FLY ASH DAN BOTTOM ASH) YANG RAMAH LINGKUNGAN Sulistyowati, Nurul Aini
Jurnal Teknik Sipil dan Perencanaan Vol 15, No 1 (2013): Jurnal Teknik Sipil & Perencanaan
Publisher : Semarang State University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v15i1.7117

Abstract

Coal ash (fly ash and bottom ash) is the waste produced by industries that use coal as a fuel source energy. Currently, the textile industry in Pekalongan city has been using coal fuel. Coal combustion waste if not dealt with seriously will be caused of environmental problems. These problems can be overcome by utilizing coal combustion waste in the manufacture of hollow block. This research uses experimental methods of making cube mortar 5 cm x 5 cm x 5 cm and hollow block 10 cm x 19 cm x 39 cm. Composition of the mix used to  cube mortar 1 PC : 8 aggregate (sand + coal ash) with aggregate percentage of 4 variations. The aggregate percentages with optimum compressive strength used to manufacture of hollow block. The compressive strength tested on age 7, 14, 21 and 28 days with repetition as much as 5 times. Testing outcomes showed that hollow block manufacture with aggregate percentages in 20 % sand + 60 % bottom ash + 20 % fly ash has compressive strength 24.15 kg/cm2 and included to IV quality and its product may be utilized for non-structural wall. TCLP test showed that hollow block using fly ash and bottom ash are classified as B3 waste has a test value  below the quality standards of established by the government.Abu batubara (fly ash dan bottom ash) merupakan limbah yang dihasilkan oleh industri yang menggunakan  bahan bakar batubara sebagai sumber energi. Pada saat ini industri tekstil di Kota Pekalongan telah menggunakan bahan bakar batubara. Limbah pembakaran batubara bila tidak ditangani dengan serius berpotensi menimbulkan permasalahan lingkungan. Permasalahan tersebut dapat diatasi dengan memanfaatkan limbah pembakaran batubara dalam pembuatan bata beton berlobang. Penelitian ini menggunakan metoda eksperimen pembuatan mortar kubus 5 cm x 5 cm x 5 cm dan bata beton berlobang 10 cm x 19 cm x 39 cm. Komposisi campuran mortar kubus 1 PC : 8 agregat (pasir+abu batubara) dengan persentase agregat sebanyak 4 variasi. Persentase agregat dengan kekuatan tekan tertinggi digunakan dalam pembuatan bata beton berlobang. Pengujian kekuatan tekan pada umur 7, 14, 21 dan 28 hari dengan ulangan sebanyak 5 kali. Hasil pengujian menunjukkan bahwa bata beton berlobang dengan persentase agregat 20 % pasir + 60 % bottom ash + 20 % fly ash mempunyai kekuatan tekan sebesar 24,15 kg/cm2 termasuk kedalam mutu IV dan dapat digunakan untuk dinding non struktural. Uji Total Characteristic Leaching Procedure (TCLP) memperlihatkan bahwa bata beton berlobang yang menggunakan fly ash dan bottom ash yang tergolong limbah B3 mempunyai nilai uji dibawah ambang batas baku mutu yang ditetapkan oleh pemerintah. 
Transformation of Activities and Space in Malay Kampong as Heritage Kampong in Semarang City Kurniati, Rina; Ristianti, Novia Sari; Dewi, Santy Paulla; Prihestiwi, Rosa Calista
Jurnal Teknik Sipil dan Perencanaan Vol 22, No 1 (2020)
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v22i1.21498

Abstract

Abstract. Urban development is a very dynamic process which determines by the function and the value of an area. Development of the city and the modernization causes social, economic and environmental changes and causes spatial transformation in the urban kampoong. The spatial transformation cannot be generalized and have different forms. Kampung Melayu is one of the kampung kota in the Semarang city that still survives till now. The function of Kampung Melayu is very vital and has enormous value in the colonial era so that it becomes a special attraction in the service trade sector. However, in the 20th century Kampung Melayu changed its function which led to changes in spatial planning in the region. Based on the results of the analysis, there are indications of decreased activity in the region regarding economic, environmental and social aspects both in the context of physical and non-physical changes. Thus, the purpose of this research is to make a spatial transformation that occurs in Kampung Melayu Semarang. The method used is a qualitative method. This study discusses the historical role of Malay villages from the future, how to assess the character of space and activities in Kampung Melayu and the spatial transformation in Kampung Melayu. The output of this research is spatial transformation that occurs in Kampung Melayu, Semarang CityKeywords: Spatial Transformation, Urban Kampoong, Kampoong Heritage.
STUDI PERENCANAAN TPA BULUMINUNG KABUPATEN PENAJAM PASER UTARA DENGAN SISTEM SANITARY LANDFILL Diharto, Diharto
Jurnal Teknik Sipil dan Perencanaan Vol 11, No 2 (2009): Jurnal Teknik Sipil & Perencanaan
Publisher : Semarang State University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v11i2.1727

Abstract

Development TPA Buluminung Penajam Paser Utara District East KalimantanProvince is planned in accordance with the technology and rules applicable legislation.Planning TPA Buluminung in accordance with the characteristics of the location and theexisting budget system selected sanitary landfill generation III according to the wetclimate, but can not be used on an ongoing basis (not sustainable). This TPA serves 4district is District Penajam, Waru, Babulu and Sepaku. Land area available ± 18.9 ha.Planning TPA Buluminung sanitary landfill system include: entrances and facilities onsite; tread base waterproof coating; leachate management, management of drainage atthe site; and gas management. The division of land according to the plan is operationalroad infrastructure 2457 m2; office area, garage, workshop 3901 m2; wastewatertreatment plant facilities 642 m2, 36,434 m2 of solid waste disposal area (there are 4zones); zone buffer; zone of the development TPA phase I; zone development TPAphase II; and sludge treatment area installations. Of the land area of 36,434 m2 of landfillwaste can accommodate up to 20 years into the future. Planning TPA Buluminungsanitary landfill system is in conformity with the mandate of the Government RegulationNo. 16 of 2005. Recommended a gradual development TPA Bulumining
Performance Indicators of Basic Infrastructure of Kotaku Program (The City without Slums) Tribhuwana, Awliya; Farhan, Ohan
Jurnal Teknik Sipil dan Perencanaan Vol 22, No 2 (2020)
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v22i2.24011

Abstract

Abstract. Wotgali Village is a slum area. The aim of the current research is to find out the performance of slum base infrastructure using Lakip (Government Agency Accountability Report) of KOTAKU (City without Slums) Program. The first step was performed by identifying the initial settlement (base line), then some treatments on the facilities and infrastructure (finish line), performance evaluation stages of the preparation, planning, implementation, and sustainability stages. The research used qualitative and quantitative approach. Qualitative measurement began with a numerical assessment of the results on the level of regional slum. In addition, quantitative data used the Lakip simulation using results of the KOTAKU program stage performance. Results of the initial condition reach value of 32%. It is categorized as slight slums with an average sectoral slum of 36.68%. Basic infrastructure development which has final technical reached 24% and is included in slight slum with an average sectoral of 27.50%. The performance of LAKIP Kotaku was in preparation phase 90.46% (very good performance), planning stage was 89.93% (very good performance), implementation stage was 90.25% (very good performance), sustainability stage was 85.21% (better performance). Thus, the achievement of KOTAKU program is 85.19% with a range of value of 80-90. The value is included as better performance result. Results of the analysis can be concluded that level of slum can be reduced to 19% (not slum) by creating some improvements to basic facilities and infrastructure. In the following year, involving Lakip Performance, the planning stage can be enhanced through community participation and active involvement.
ANALISIS KENAIKAN TEKANAN AIR PORI CLEAN SAND MENGGUNAKAN METODE CYCLIC SHEAR-STRAIN CONTROLLED Kusumawardani, Rini; ., Lashari; Nugroho, Untoro; Cahyo A, Hanggoro Tri
Jurnal Teknik Sipil dan Perencanaan Vol 17, No 1 (2015): Jurnal Teknik Sipil & Perencanaan
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v17i1.6896

Abstract

Liquefaction phenomenon could be analysed using strain-controlled loading method where informations about sands pore water pressure build-up were presented. Maintaining small deformation values whenever the soil was subjected to cyclic loading, this non-destructive method presents clearly the information about the increasing sands pore water pressure. It is concluded that liquefaction occurs whenever the pore water pressure reaches the same value with the soil effective stress (σ3’). Strain-controlled loading method introduces a fundamental parameter for undrained cyclic loading tests on fully saturated sands: shear strain treshhold (γt). This parameter divides the pore water pressure into two distinct zones, namely the constant pore water pressure and the increasing one. When cyclic shear strain amplitude (γ) is set up lesser than γt then pore water pressure stays constant. Contrastly, a larger set up of γ than γt results the increasing pore water pressure. Laboratory test on clean sand using relative density (Dr) 25%, 60 % and 80%, with effective pressure σ3’ = 100 kPa and frequency (f) applied 0.05 Hz and 0.1 Hz,  shows that γt = 1,5. 10-2  %. Whilst other test using Dr = 60% and f = 0.1 Hz confirms that γt = 1,5. 10-2  %  (50 ≤ σ3’ (kPa) ≤ 100) and γt = 5. 10-2  % (σ3’ = 200kPa). Last test using Dr = 60% and f = 0.05 Hz reveals γt = 1,2. 10-2  %  (50 ≤ σ3’ (kPa) ≤ 100) and γt = 2. 10-2  % (σ3’ = 200kPa).Fenomena likuifaksi dapat dianalisis menggunakan metode strain-controlled loading method. Metode ini merupakan metode non destruktif pada benda uji yang dapat menyajikan seluruh informasi kenaikan tekanan air pori secara lengkap. Metode ini dilakukan dengan cara mempertahankan nilai small deformation ketika diterapkan pembebanan secara siklis. Dari hasil pengujian diperoleh hasil bahwa likuifaksi terjadi ketika tekanan air pori mencapai nilai sebanding tekanan efektif tanah (σ3’). Metode ini menghasilkan parameter cyclic shear strain treshhold (γt). Parameter ini membagi grafik tekanan air pori menjadi dua zona yaitu zona konstan dan zona kenaikan tekanan air pori. Ketika amplitudo cyclic shear strain (γε) lebih rendah dari γt maka tidak akan ditemui kenaikan tekanan air pori. Tetapi sebaliknya jika γε γt maka akan muncul kenaikan tekanan air pori. Berdasarkan hasil pengujian pada pasir murni dengan kepadatan relatif (Dr) sebesar 25%, 60% dan 80% dengan penerapan tekanan kekang sel σ3’ = 100 kPa dan frekuensi pembebanan (f) = 0.05 Hz dan 0,1 Hz tampak bahwa nilai γt sebesar 1,5. 10-2  %. Uji lain dengan menggunakan kondisi batas Dr = 60% dan f = 0.1 Hz menghasilkan nilai γt sebesar 1,5. 10-2  %  (50 ≤ σ3’ (kPa) ≤ 100) dan γt = 5. 10-2  % (σ3’ = 200kPa). Serta pengujian dengan kondisi batas Dr = 60% dan f = 0.05 Hz menunjukan hasil  γt sebesar 1,2. 10-2  %  (50 ≤ σ3’ (kPa) ≤ 100) dan γt = 2. 10-2  % (σ3’ = 200kPa).
Management of Gender-Based Production and Commercial Spaces Murtini, Titien Woro; Harani, Arnis Rochma; Adiyati, Arlina
Jurnal Teknik Sipil dan Perencanaan Vol 20, No 1 (2018)
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v20i1.13621

Abstract

Currently, home industry is attaining particular attention from Indonesian government. This activity is considered as an embryo of Indonesia's economic growth. One of the home industries that have been recognized worldwide is batik. Batik is the cultural heritage of Indonesia that which has received international recognition. The famous batik in Indonesia comes from Pekalongan. In Pekalongan, some villages have characteristic of batik, one of them is proto village. In this village, batik is growing through the home industry business, and almost 70% women can write batik. Also, almost all the houses in this village become a place for industry, whether to make batik, sell batik, and modify batik fabric into clothing. The house which should be a residence, it is functioned as a production and business space. This research employed qualitative method with phenomenology paradigm, aimed to understand and reveal the meaning of the phenomenon of human life behavior, both human in capacity as individuals, groups and the wider community in using residential as a business space and production in Proto Batik Village. The results of this study found that the spatial management system in Proto Batik Village is dominated by women in every home. If the living room in business space used as a place to sell and marketing, the function of production room is located in women area such as kitchens, and backyard. It can be concluded that private house spaces are still used as residential functions, but semi-public spaces are utilized as production and business space.
Lateral Deflection of Single Pile due to Lateral Loads in Clay Soils based on The P-Y Curve Method with Finite Difference Solution, ALLPILE Program, and PLAXIS Program Ba'ist, Ahmad Jirjisul; Upomo, Togani Cahyadi; Apriyatno, Henry; Nugroho, Untoro
Jurnal Teknik Sipil dan Perencanaan Vol 21, No 2 (2019)
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jtsp.v21i2.20961

Abstract

The foundation has a function to hold the load in the form of axial load, lateral load and moment. The axial load on the pile foundation is supported by the pole end resistance and pile friction, while the lateral load on the pile foundation is supported by the relation of the blanket area along with the pile with the ground in the lateral direction. Lateral load causes lateral deflection in which the magnitude of deflection must not exceed the permissible lateral deflection limit of 2.54 cm. The determining factors in lateral deflection are the type of pile foundation, soil type, and the magnitude of the force that occurs. The foundation of a single pile in which the number of one pile, when embedded in clay soil, needs to be investigated for the magnitude of lateral deflection that occurs, this is due to the changing nature of the clay when under the influence of high or low water content. The foundation of the pile uses a concrete head with a condition of a free end with a cylindrical shape with a diameter of 60 cm that is not solid with a wall thickness of 10 cm and a compressive strength of concrete of 60 MPa. Clay soil data uses soil drilling test data in Wirosari, Grobogan, Central Java. The planning method used is the finite element method (PLAXIS program) and the finite difference method (py curve and the ALLPILE program) with lateral load variations of 10 kN, 15 kN and 20 kN given to the top end of the pole with the principle of giving trial and error loads. The results of the calculation of the lateral deflection of the pile on the py curve method with a finite-difference resolution, the ALLPILE program, and the PLAXIS program respectively with a lateral load of 10 kN are 0.0629 cm; 1.21 cm; 0.27 cm, lateral loads of 15 kN are 0.0943 cm; 2.13 cm; 0.4051 cm, and a lateral load of 20 kN is 0.1258 cm; 3.14 cm; 0.5402 cm. Thus the lateral deflection load limit is 15 kN, so as not to exceed the permissible lateral deflection limit of 2.54 cm. The recommended method used is the ALLPILE program to better get the level of security from the lateral deflection of the pole when applied in the field

Page 51 of 78 | Total Record : 774

 49   50   51   52   53 

Filter by Year

2006 2024


Reset
Filter By Issues
All Issue Vol 26, No 1 (2024) Vol 25, No 2 (2023) Vol 25, No 1 (2023) Vol 24, No 2 (2022) Vol 24, No 1 (2022) Vol 23, No 2 (2021): Jurnal Teknik Sipil dan Perencanaan Vol 23, No 2 (2021) Vol 23, No 1 (2021): Jurnal Teknik Sipil dan Perencanaan Vol 23, No 1 (2021) Vol 22, No 2 (2020) Vol 22, No 2 (2020): Jurnal Teknik Sipil & Perencanaan Vol 22, No 1 (2020) Vol 22, No 1 (2020): Jurnal Teknik Sipil & Perencanaan Vol 21, No 2 (2019): Jurnal Teknik Sipil & Perencanaan Vol 21, No 2 (2019) Vol 21, No 1 (2019) Vol 21, No 1 (2019): Jurnal Teknik SIpil & Perencanaan Vol 20, No 2 (2018): Jurnal Teknik Sipil & Perencanaan Vol 20, No 2 (2018) Vol 20, No 1 (2018) Vol 20, No 1 (2018): Jurnal Teknik Sipil & Perencanaan Vol 19, No 2 (2017) Vol 19, No 2 (2017): Jurnal Teknik Sipil & Perencanaan Vol 19, No 1 (2017): Jurnal Teknik Sipil & Perencanaan Vol 19, No 1 (2017) Vol 19, No 1 (2017): Jurnal Teknik Sipil & Perencanaan Vol 18, No 2 (2016) Vol 18, No 2 (2016): Jurnal Teknik Sipil & Perencanaan Vol 18, No 2 (2016): Jurnal Teknik Sipil & Perencanaan Vol 18, No 1 (2016): Jurnal Teknik Sipil & Perencanaan Vol 18, No 1 (2016) Vol 18, No 1 (2016): Jurnal Teknik Sipil & Perencanaan Vol 17, No 2 (2015): Jurnal Teknik Sipil & Perencanaan Vol 17, No 2 (2015): Jurnal Teknik Sipil & Perencanaan Vol 17, No 1 (2015): Jurnal Teknik Sipil & Perencanaan Vol 17, No 1 (2015): Jurnal Teknik Sipil & Perencanaan Vol 16, No 2 (2014): Jurnal Teknik Sipil & Perencanaan Vol 16, No 2 (2014): Jurnal Teknik Sipil & Perencanaan Vol 16, No 1 (2014): Jurnal Teknik Sipil & Perencanaan Vol 16, No 1 (2014): Jurnal Teknik Sipil & Perencanaan Vol 15, No 1 (2013): Jurnal Teknik Sipil & Perencanaan Vol 15, No 1 (2013): Jurnal Teknik Sipil & Perencanaan Vol 14, No 2 (2012): Jurnal Teknik Sipil & Perencanaan Vol 14, No 2 (2012): Jurnal Teknik Sipil & Perencanaan Vol 14, No 1 (2012): Jurnal Teknik Sipil & Perencanaan Vol 14, No 1 (2012): Jurnal Teknik Sipil & Perencanaan Vol 13, No 2 (2011): Jurnal Teknik Sipil & Perencanaan Vol 13, No 2 (2011): Jurnal Teknik Sipil & Perencanaan Vol 13, No 1 (2011): Jurnal Teknik Sipil & Perencanaan Vol 13, No 1 (2011): Jurnal Teknik Sipil & Perencanaan Vol 12, No 2 (2010): Jurnal Teknik Sipil & Perencanaan Vol 12, No 2 (2010): Jurnal Teknik Sipil & Perencanaan Vol 12, No 1 (2010): Jurnal Teknik Sipil & Perencanaan Vol 12, No 1 (2010): Jurnal Teknik Sipil & Perencanaan Vol 11, No 2 (2009): Jurnal Teknik Sipil & Perencanaan Vol 11, No 2 (2009): Jurnal Teknik Sipil & Perencanaan Vol 11, No 1 (2009): Jurnal Teknik Sipil & Perencanaan Vol 11, No 1 (2009): Jurnal Teknik Sipil & Perencanaan Vol 10, No 2 (2008): Jurnal Teknik Sipil & Perencanaan Vol 10, No 2 (2008): Jurnal Teknik Sipil & Perencanaan Vol 10, No 1 (2008): Jurnal Teknik Sipil & Perencanaan Vol 10, No 1 (2008): Jurnal Teknik Sipil & Perencanaan Vol 9, No 2 (2007): Jurnal Teknik Sipil & Perencanaan Vol 9, No 2 (2007): Jurnal Teknik Sipil & Perencanaan Vol 9, No 2 (2007) Vol 9, No 1 (2007): Jurnal Teknik Sipil & Perencanaan Vol 9, No 1 (2007): Jurnal Teknik Sipil & Perencanaan Vol 8, No 2 (2006) More Issue