Monthly Archives: November 2017

Daftar Kumpulan Regulasi SNI Sipil

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  1. SNI untuk perhitungan struktur
  • Beton
    • SNI 2847 2013 Persyaratan beton struktural untuk bangunan gedung    UNDUH
    • SNI 6816 2002 Tata cara pendetailan penulangan beton   UNDUH
    • SNI-7392-2008 Tata cara perencanaan dan pelaksanaan bangunan gedung menggunakan panel jaring kawat baja tiga dimensi (PJKB-3D) las pabrikan   UNDUH
    • Perencanaan struktur beton pratekan untuk jembatan   UNDUH
  • Baja  
    • SNI 1729 2002 Tata cara perencanaan struktur baja untuk bangunan gedung   UNDUH
  •  Kayu
    • SNI  xxxx 2000 Tata cara perencanaan struktur kayu untuk bangunan gedung   UNDUH
  • Pembebanan
    • SNI 1727 2013 Beban minimum untuk perancangan bangunan gedung dan struktur lain  UNDUH
    • Pedoman perencanaan pembebanan untuk rumah dan gedung 1987  UNDUH
    • Ringkasan PPPURG 1987  UNDUH
    • Standart pembebanan untuk jembatan RSNI T-02-2005   UNDUH
  •  Gempa
    •  SNI 1726 2012 Tata cara perencanaan ketahanan gempa untuk struktur bangunan gedung dan non gedung  UNDUH
    •  SNI 1726 2002 Tata cara perencanaan ketahanan gempa untuk struktur bangunan gedung dan non gedung  UNDUH
    • SNI 2833 2008 Standar perencanaan gempa untuk jembatan  UNDUH
  • Jalan Raya
    • Tata Cara Perencanaan geometrik jalan antar kota 1997  UNDUH
    • Pt T 01 2002 B Pedoman Perencanaan Tebal Perkerasan Lentur  UNDUH
    • Pd T 14 2003. Perencanaan perkerasan jalan beton semen  UNDUH
  1. SNI untuk rencana angaran biaya (RAB)
    • RSNI T-12-2002 Pekerjaan persiapan   UNDUH
    • SNI 2835 2008 Pekerjaan tanah   UNDUH
    • SNI 2836-2008 Pekerjaan pondasi   UNDUH
    • SNI 7394 2008 Pekerjaan beton   UNDUH
    • SNI 6897-2008 Pekerjaan dinding dan plesteran   UNDUH
    • SNI 2837-2008 Pekerjaan plesteran dan finishing   UNDUH
    • Pt-T-30-2000-C Pekerjaan kunci dan kaca   UNDUH
    • SNI 7395-2008 Pekerjaan penutup lantai dan dinding   UNDUH
    • SNI 2839-2008 Pekerjaan langit langit   UNDUH
    • SNI 7393-2008 Pekerjaan besi dan aluminium   UNDUH
    • SNI 3434-2008 Pekerjaan penutup atap  UNDUH
    • RSNI T 15 2002 Pekerjaan sanitasi   UNDUH
    • Pt T 38 2000 C Pekerjaan pengecatan   UNDUH
    • SNI 3434-2008 Pekerjaan kayu   UNDUH
  1. SNI untuk pengujian di laboratorium
  • Beton
    •  SNI 2823 1992 Metode Pengujian Kuat Lentur Beton Memakai Gelagar Sederhana Dengan Sistem Beban Titik Di Tengah  UNDUH 
    •  SNI 6429 2000 Metode pengujian kuat tekan beton silinder dengan cetakan silinder di dalam tempat cetakan  UNDUH
    •  SNI 3402 2008 Cara uji berat isi beton ringan struktural   UNDUH
    •  SNI 3419 2008 Cara uji abrasi beton di laboratorium  UNDUH
    •  SNI 4156 2008 Cara uji bliding dari beton segar  UNDUH 
    •  SNI 6369 2008 Tata cara pembuatan kaping untuk benda uji silinder beton  UNDUH 
    •  SNI 2491 2002 Metode pengujian kuat tarik belah beton  UNDUH 
    •  SNI 1972 2008 Cara uji slump beton  UNDUH 
    • SNI 1969 2008 Cara uji berat jenis dan penyerapan air agregat kasar  UNDUH 
    • SNI 1970 2008 Cara uji berat jenis dan penyerapan air agregat halus  UNDUH 
    • SNI 1971  2011 Cara uji kadar air total agregat dengan pengeringan  UNDUH 
    • SNI 1973 2008 Cara uji berat isi, volume produksi campuran dan kadar udara beton  UNDUH 
    • SNI 1974 2011 Cara uji kuat tekan beton dengan benda uji silinder yang dicetak  UNDUH 
    •  SNI 1974 1994 Cara uji kuat tekan beton dengan benda uji silinder yang dicetak  UNDUH 
    • SNI 03-6813-2002 Tata cara pembuatan silinder dan prisma uji untuk menentukan kekuatan dan densitas beton agregat praletak di laboratorium  UNDUH 
  • Mekanika Tanah
    • SNI 3422 2008 Cara uji penentuan batas susut tanah  UNDUH
    • SNI 1964 2008 Cara uji berat jenis tanah   UNDUH 
    • SNI 1967 1990 Metode pengujian batas cair dengan alat casagrande  UNDUH  
    • SNI 3423 1994 Cara uji analisis ukuran butir tanah  UNDUH
    • SNI 3423 2008 Cara uji analisis ukuran butir tanah UNDUH
    • SNI 1744 1989 Metode pengujian cbr laboratorium  UNDUH 
    • SNI 1742 2008 Cara uji kepadatan ringan untuk tanah  UNDUH
    • SNI 1743 2008 Cara uji kepadatan berat untuk tanah  UNDUH
    • SNI 1965 2008 Cara uji penentuan kadar air untuk tanah dan batuan di laboratorium  UNDUH 
    • SNI 2813 2008 Cara uji kuat geser langsung tanah terkonsolidasi dan terdrainase  UNDUH 
    • SNI 2827 2008 Cara uji penetrasi lapangan dengan alat sondir   UNDUH
    • SNI 6424 2008 Cara uji potensi pengembangan atau penurunan satu dimensi tanah kohesif  UNDUH 
    • SNI 6792 2008 Cara uji kepadatan tanah di lapangan dengan cara selongsong  UNDUH
    • SNI 4142 1996 Metode pengujian jumlah bahan dalam agregat yang lolos saringan no. 200 (0,075 mm)  UNDUH
    • SNI 2455 1991 Cara Uji Triaksial untuk Tanah dalam Keadaan Terkonsolidasi Tidak Terdrainase (CU) dan Terkonsolidasi Terdrainase (CD)  UNDUH
    • SNI 1738 2011 Cara uji CBR lapangan  UNDUH
    • SNI 1744 2012 Metode uji CBR laboratorium  UNDUH
    • SNI 1966 2008 Cara uji penentuan batas plastis dan indeks plastisitas tanah  UNDUH
    •  SNI 1967 2008 Cara uji penentuan batas cair tanah  UNDUH
    • RSNI 3638 20xx Metode uji kuat tekan-bebas tanah kohesif  UNDUH 
    • RSNI 3638 2012 Metode uji kuat tekan-bebas tanah kohesif  UNDUH 
    • SNI 4813 1998 Cara uji triaksial untuk tanah kohesif dalam keadaan tidak terkonsolidasi dan tidak terdrainase (UU)  UNDUH 
    • SNI 2815 2011 Cara uji tekan triaksial pada batu di laboratorium  UNDUH 
    • SNI 4153 2008 Cara uji penetrasi lapangan dengan SPT  UNDUH 
    • SNI 03-6795-2002 Metode pengujian menentukan tanah ekspansif  UNDUH 
    • SNI 03 4141 1996 Metode pengujian gumpalan lempung dan butir-butir mudah pecah dalam agregat  UNDUH 
    • SNI 03 1976 1990 Metode koreksi untuk pengujian pemadatan tanah yang mengandung butir kasar  UNDUH 
  • Jalan raya
    • SNI 1968 1990 Metode pengujian tentang analisis saringan agregat halus dan kasar  UNDUH 
    • SNI 2439 1991 Metode pengujian kelekatan agregat terhadap aspal  UNDUH 
    • SNI 2434 1991 Metode pengujian titik lembek aspal dan ter  UNDUH 
    • SNI 2440 1991 Metode pengujian kehilangan berat minyak dan aspal dengan cara A  UNDUH 
    • SNI 2439 2011 Cara untuk menguji ketahanan penyelimutan film aspal pada permukaan suatu agregat  UNDUH 
  • Ilmu Ukur Tanah
    • SNI 3417-2008 Tata cara penentuan posisi titik perum menggunakan alat sipat ruang  UNDUH 
    • SNI 6724 2002 Jaring kontrol horizontal  UNDUH 
  •  Hidrolika
  1. Spesifikasi Teknis
    • SNI 3976 1995 Tata cara pengadukan pengecoran beton   UNDUH
    • SNI 2496 2008 Spesifikasi bahan tambahan pembentuk gelembung udara untuk beton   UNDUH 
    • SNI 3967 2008 Spesifikasi bantalan elastomer tipe polos dan tipe berlapis untuk  perletakan jembatan  UNDUH 
    • SNI 3967 2013 Spesifikasi bantalan elastomer tipe polos dan tipe berlapis untuk perletakan jembatan  UNDUH 
    • SNI 6818 2013 Spesifikasi bahan bersifat semen dalam kemasan, kering dan cepat mengeras untuk perbaikan beton (ASTM C928 – 09)  UNDUH 
    • SNI 4817 2008 Spesifikasi lembaran bahan penutup untuk perawatan beton  UNDUH 
    • SNI 03 4810 1998 Metode pembuatan dan perawatan benda uji beton di lapangan  UNDUH 
    • SNI 07 0329 2005 Baja profil I-beam proses canai panas  UNDUH 
    • SNI 07 2052 2002  Baja tulang beton  UNDUH 
    • SNI 03 6880 2002 Spesifikasi beton struktural  UNDUH 
    • SNI 03 6388 2000 Spesifikasi agregat lapis pondasi bawah, lapis pondasi atas dan lapis permukaan  UNDUH 
    • Pd t 05 2004 b Pelaksanaan perkerasan jalan beton semen  UNDUH 
  1. Lingkungan
    • SNI 7645 2014  Klasifikasi penutup lahan ( bagian 1 skala kecil dan menengah)  UNDUH 
    • SNI 7645 2010  Klasifikasi penutup lahan  UNDUH 
    • SNI 1733 2004 Tata cara perencanaan lingkungan perumahan di perkotaan  UNDUH 

sumber

http://hms-unrika.blogspot.co.id/2016/06/kumpulan-sni-standar-nasional-indonesia.html

 

ISO/IWA 2:2007 Project Plan

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1 Project Management

1.1 Project definition

This Project is carried out on the three-year monitoring of the ISO/IWA 2:2007 Guide in accordance with the ISO Directives, fourth edition. The impact of the IWA 2 Guide on the international education sector is evaluated, with the contribution of the international experts who participated in the workshops held in Acapulco and Busan, with the goal of having a workshop deliverable (document derived from the ISO/IWA 2:2007 Guide) assigned to an existing or a new ISO Technical Committee, so that the ISO/IWA 2 Guide becomes a new ISO deliverable (a publicly available specification, a technical specification or an International Standard, ISO Supplement, Annex SR.9 Review of IWA, 2004). The results of this project will provide the ISO/TMB with elements for making the corresponding decision.

 

Mexico has been the promoter of this initiative since the IWA 2 first edition ISO/IWA 2:2003 “Guidelines for the Application of ISO 9001:2000 in Education”. The ISO/TMB assigned Mexico the responsibility of organizing the international workshop, held in Acapulco, Mexico, in October 2002. A second edition of the IWA 2 Guide was approved at a second workshop held in Busan, Republic of Korea in November 2006, and was published by the ISO/TMB on May 8th, 2007. We are inviting the ISO member countries that have participated in this project to continue doing so during this second three-year monitoring stage, being the end objective of the IWA 2 Project that the ISO/IWA 2:2007 Guide becomes an ISO deliverable.

1.2 Project Objective and Scope

General Objective

To establish and maintain an on-going communication process with all the interested parties in the world who wish to implement the ISO/IWA 2:2007 Guide, during the three-year monitoring period following its publication. The main purpose is to evaluate the impact resulting from its use, in order to create a workshop deliverable that is accepted by an ISO Technical Committee that eventually becomes a new ISO deliverable in education.

Specific objectives

  1. Evaluate the impact of ISO/IWA 2:2007 in a global context.
  2. Promote the translation of the ISO/IWA 2:2007 Guide to other languages in order to motivate its use.
  3. Strengthen the promotion of the guide by familiarizing a broader audience with it and encouraging its use through workshops, conferences and meetings.
  4. Promote the participation of more people from different countries and assign specific tasks to working groups, so that they can carry out promotion and follow-up on the use of the guide in their respective countries.
  5. Conduct an on-going survey on the use of the guide with the support from task group members, in order to carry out a continuing assessment on the impact of its use and to conduct the necessary actions aimed at achieving the end objective that the ISO/IWA 2:2007 Guide becomes a new ISO deliverable in education.

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ISO/IEC 9899:TC2

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Introduction
1 With the introduction of new devices and extended character sets, new features may be
added to this International Standard. Subclauses in the language and library clauses warn
implementors and programmers of usages which, though valid in themselves, may
conflict with future additions.
2 Certain features are obsolescent, which means that they may be considered for
withdrawal in future revisions of this International Standard. They are retained because
of their widespread use, but their use in new implementations (for implementation
features) or new programs (for language [6.11] or library features [7.26]) is discouraged.
3 This International Standard is divided into four major subdivisions:
— preliminary elements (clauses 1−4);
— the characteristics of environments that translate and execute C programs (clause 5);
— the language syntax, constraints, and semantics (clause 6);
— the library facilities (clause 7).
4 Examples are provided to illustrate possible forms of the constructions described.
Footnotes are provided to emphasize consequences of the rules described in that
subclause or elsewhere in this International Standard. References are used to refer to
other related subclauses. Recommendations are provided to give advice or guidance to
implementors. Annexes provide additional information and summarize the information
contained in this International Standard. A bibliography lists documents that were
referred to during the preparation of the standard.
5 The language clause (clause 6) is derived from ‘‘The C Reference Manual’’.
6 The library clause (clause 7) is based on the 1984 /usr/group Standard.

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Measurement management systems – Requirements for measurement processes and measuring equipment

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Introduction
An effective measurement management system ensures that measuring equipment and measurement
processes are fit for their intended use and is important in achieving product quality objectives and managing
the risk of incorrect measurement results. The objective of a measurement management system is to manage
the risk that measuring equipment and measurement processes could produce incorrect results affecting the
quality of an organization’s product. The methods used for the measurement management system range from
basic equipment verification to the application of statistical techniques in the measurement process control.
In this International Standard, the term “measurement process” applies to physical measurement activities
(e.g. in design, test, production, inspection).
References to this International Standard can be made
 by a customer when specifying products required,
 by a supplier when specifying products offered,
 by legislative or regulatory bodies, and
 in assessment and audit of measurement management systems.
One of the stated management principles in ISO 9000 addresses the process-oriented approach.
Measurement processes should be considered as specific processes aiming to support the quality of the
products produced by the organization. Application of the measurement management system model
applicable to this International Standard is shown in Figure 1.

International Organization for Standardization: A City of Dallas ISO Management Systems

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Purpose

  • Provide background of City involvement with ISO systems
  • Present an update on implementing a Quality Management System (ISO 9001)
  • and a Safety & Health Management System (OHSAS 18001)
  • Present the ISO registration process

 

Overview

  • The City of Dallas is implementing three ISO standards into City departments
    • ISO 9001:2000 –Quality Management System (QMS)
    • ISO 14001:2004 –Environmental Management System (EMS)
    • OHSAS 18001:2007 –Occupational Health and Safety Management System (OHSAS)
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Pedoman Penerapan SNI 19-17020-1999 : Persyaratan Umum Pengoperasian Berbagai Tipe Lembaga Inspeksi

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1 Ruang lingkup

 1.1 Standar ini memuat persyaratan umum untuk kompetensi suatu lembaga yang tidak berpihak (impartial) untuk melakukan inspeksi pada sektor yang terkait juga memuat persyaratan kemandirian (independence).

 1.1a Apabila menggunakan ISO/IEC 17020 dan dokumen pedoman ini, badan akreditasi hendaknya tidak menambah atau mengurangi persyaratan standar ini. Penerapan persyaratan hukum, pemerintah atau persyaratan normatif lain harus direfleksikan dalam lingkup akreditasi yang diberikan.

 1.2 Standar ini diberlakukan untuk penggunaan lembaga inspeksi dan badan

 1.3 Kriteria ini perlu diinterpretasikan apabila akan digunakan untuk sektor tertentu atau untuk pelayanan inspeksi sendiri (in-service).

 1.4 Standar ini tidak berlaku untuk laboratorium penguji, lembaga sertifikasi dan deklarasi kesesuaian dari pemasok yang kriterianya dimuat dalam EN 45000 series.

1.4a Pemeriksaan yang dilakukan oleh lembaga inspeksi terdiri atas dua kategori yaitu fungsional dan analitik. Pemeriksaan fungsional, misalnya pemeriksaan beban pada suatu crane, merupakan sutatu bagian dari kegiatan lembaga inspeksi , oleh karena itu termasuk dalam Iingkup ISO/IEC 17020. Pemeriksaan analitik, (yang wajib dilakukan di dalam suatu laboratorium pada kondisi lingkungan yang terkendali baik dan menggunakan peralatan atau prosedur pengujian yang lebih rumit), merupakan kegiatan laboratorium dan oleh karena itu tidak termasuk dalam lingkup ISO/IEC 17020. Lembaga inspeksi yang hendak melakukan kategori pemeriksaan analitik laboratorium sebagai bagian dari inspeksi harus dilakukan sesuai dengan persyaratan ISO/IEC 17025. Selanjutnya bisa di Download Here

Hotel Service Quality and Business Performance in five hotels

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The study focuses on the nature of hotel service quality and performance in a UK Hotel chain. It examines managerial conceptualisations, implementation and measurement and contextual issues that affect decision-making. Although managers acknowledge the importance of service quality and performance monitoring, their efforts are impeded by flaws in implementation and contextual constraints.

The results reveal the flaws as lack of policyon quality, non-implementation of action plans and biased reward schemes. The contextual constraints are identified as competition, budgetary, staff turnover and biased rewards. The results in this study seems to suggest that service and quality are sacrificed at the altar of profits as senior managers appear to hope for quality but reward financial performance. The
results also identify a significant gap in UK literature and a consequent paucity in knowledge regarding the use of service guarantees as service quality strategy in hotels. It is concluded that hotel leaders should take responsibility for delivery on service quality and business performance. More paragraph get this file Here

Benchmarking Quality Management in Hotels

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In the early 1980s many hotels in the United States adopted quality assurance as a business strategy. By the late 1980s independent and chain hotels realized that total quality management (TQM) was a more powerful process and they began utilizing many of its components. For over 10 years, hotels have flirted with a variety of tools, processes, and theories to improve service to the guest. One of the problems with studying the design of quality systems is that there is no single, best definition of TQM. It has been called a philosophy and system designed to encourage positive organizational deve1opment.

It has also been called a process that entails work in 10 areas, from creating a culture of quality to building a system for rewards and reognitionM.o re specifically, TQM has been defined as a commitment to the continuous improvement of customer sati~faction. Certain commonalities can be found, however, in the various definitions of TQM.4 First of all, a systematic approach must be taken for TQM to be successful. The culture of the hotel system must allow employees to make decisions about their jobs. Continuously improving customer satisfaction with products and services is another key element of a quality system. Clearly, management’s responsibility is to employees as well as customers. That responsibility includes training employees to use the appropriate TQ tools and measuring customer satisfaction so that decisions are based on reliable data. And at the heart and soul of quality is an understanding of the processes that are designed to create employee and customer satisfaction.

But there have been no empirical studies of what hotels are actually accomplishing in terms of specific TQM principles. Several researchers and groups have studied manufacturing and service industries to identify the best practices of companies that operate according to the quality philosophy. Benchmarking, as this process is  get this file Here