Kata Pengantar
ISO (Organisasi Internasional untuk Standardisasi) adalah aliansi global badan standar nasional (badan anggota ISO). Pengembangan standar internasional biasanya dilakukan melalui komite teknis ISO. Setiap lembaga anggota yang berminat pada suatu mata pelajaran yang telah dibentuk panitia teknisnya berhak untuk diwakili dalam panitia tersebut. Organisasi internasional pemerintah dan non-pemerintah yang berhubungan dengan organisasi standardisasi juga terlibat dalam pekerjaan ini. ISO bekerja sama dengan Komisi Elektroteknik Internasional (IEC) tentang segala hal standardisasi kelistrikan.

Prosedur yang digunakan untuk mengembangkan dokumen ini serta yang digunakan untuk pemeliharaan lebih lanjut dijelaskan di Bagian 1 dari Petunjuk ISO/IEC. Secara khusus, perhatian harus diberikan pada kriteria persetujuan berbeda yang diperlukan untuk berbagai jenis dokumen ISO. Dokumen ini telah disusun sesuai dengan aturan editorial Bagian 2 dari Petunjuk ISO/IEC (lihat iso.org/directives).

ISO 178-2019 – Penentuan sifat lentur Plastik

Harap dicatat bahwa isi tertentu dari dokumen ini mungkin memiliki hak paten. ISO tidak bertanggung jawab untuk mengidentifikasi salah satu atau seluruh hak paten tersebut. Rincian hak paten apa pun yang diidentifikasi selama persiapan dokumen akan tercantum dalam pendahuluan dan/atau dalam daftar klaim paten yang diterima ISO. (lihat iso.org/patents).

Nama dagang apa pun yang digunakan dalam dokumen ini disediakan sebagai informasi untuk kenyamanan pengguna dan bukan merupakan dukungan.

Voluntary, related standards and conformity assessment related ISO specific and express the meaning of terminology as well as in relevant ISO technical barriers to trade (TBT) adhere to the principle of the world trade organization (WTO) information, silakan merujuk ke URL berikut:iso.org/iso/foreword.html.

This document is prepared by ISO/TC 61, Plastik, Subkomite SC 2, Mechanical Properties.

ISO 178-2019 – Penentuan sifat lentur Plastik

The sixth edition eliminates and replaces the technically revised fifth edition (ISO 178:2010). It also incorporates amendments to ISO 178:2010 / Amd.1:2013. Compared with the previous edition, the main changes are as follows:

– Differentiation of calibration requirements according to test type;

– Introduction of deflectometer;

– Resumption of compliance correction procedures;

— A new annex D has been added, showing the relationship between tensile modulus and bending modulus.

Any feedback or questions regarding this document should be directed to the user’s national standards body. A full list of these agencies can be found at iso.org/members.html.

ISO 178-2019 – Penentuan sifat lentur Plastik

1 Cakupan
This document specifies a method for determining the bending properties of rigid and semi-rigid plastics under specified conditions. The preferred sample selection was defined, but parameters for the size of the standby sample were included for use where appropriate. Includes a series of test speeds.

This method is used to study the bending behavior of the specimen and to determine the bending strength, bending modulus and other aspects of the bending stress/strain relationship under defined conditions. It is suitable for free support beams loaded at mid-span (three-point loading test).

The method is applicable to the following material ranges:

– Thermoplastic forming, extrusion and casting materials, including filled and reinforced compounds in addition to unfilled types; Rigid thermoplastic sheet;

– Thermoset molding materials, including filling and reinforcing compounds; Thermoset sheet.

According to ISO 10350-1[5] dan ISO 10350-2[6], this document applies to fiber reinforced compounds with fiber length ≤7.5 mm before processing. For fiber length > 7.5 mm long fiber reinforcement (laminate), lihat ISO 14125[7].

This method is generally not applicable to rigid porous materials or sandwich structures containing porous materials. Pada kasus ini, ISO 1209-1[3] and/or ISO 1209-2[4] dapat digunakan.

Catatan 1 For certain types of textile fiber reinforced plastics, a four-point bending test is used. This is described in ISO 14125.

ISO 178-2019 – Penentuan sifat lentur Plastik

The method is carried out using specimens that may be molded to specified dimensions, processed from the central portion of a standard multipurpose specimen (lihat ISO 20753) or processed from finished or semi-finished products, such as moulds, laminated plates or extruded or cast plates.

This method specifies the selected size of the sample. Tests performed on specimens of different sizes or prepared under different conditions can yield incomparable results. Other factors, such as the speed of the test and the conditioning of the specimen, can also affect the results.

Catatan 2 Especially for injection molded semi-crystalline polymers, the thickness of the oriented skin layer depends on the forming conditions and also affects the bending performance.

This method is not suitable for the determination of design parameters, but it can be used for material testing and quality control testing.

ISO 178-2019 – Penentuan sifat lentur Plastik

2 Acuan normatif
Dokumen-dokumen berikut direferensikan dalam teks sedemikian rupa sehingga sebagian atau seluruh isinya merupakan persyaratan dokumen ini. Untuk referensi bertanggal, hanya versi yang dikutip yang berlaku. Untuk referensi tidak bertanggal, referensi versi baru (termasuk revisi apa pun) berlaku.

ISO 291, Plastik — Standard atmosphere for conditioning and testing

ISO 293, Plastik — Compression molding of thermoplastic material specimens

ISO 294-1:2017, Plastik. Injection molding of thermoplastic material samples. Bagian 1: General principles and molding of general-purpose and bar specimens

ISO 295, Plastik — Compression molding of specimens of thermoset materials

ISO 2602, Statistical interpretation of test results-mean estimates-confidence intervals

ISO 2818, plastik — Preparation of specimens by machining

ISO 750-1, Bahan logam — Calibration and verification of static uniaxial testing machines — Bagian 1: Mesin uji tarik/kompresi — Calibration and verification of force measurement systems

ISO 9513, Bahan logam — Calibration of extensiometer systems for use in uniaxial testing

ISO 10724-1, Plastik — Injection molding of thermoset powder molded plastics (PMC) specimens — Bagian 1: General principles and molding of multipurpose specimens

ISO 16012, Plastik — Determination of linear dimensions of specimens

ISO 20753, Plastik — Contoh

ISO 178-2019 – Penentuan sifat lentur Plastik

3 Terms, definitions and symbols
Untuk keperluan dokumen ini, istilah dan definisi berikut berlaku.

ISO dan IEC memelihara database terminologi untuk standardisasi di alamat berikut:

– Platform penjelajahan online ISO: tersedia di iso.org/obp

– IEC Electronic Encyclopedia: tersedia di electropedia.org

3.1 Test speed v

The relative rate of movement between the sample support and the loaded edge

Catatan 1: It is expressed in millimeters per minute (mm/menit).

3.2 Bending stress σf

Nominal stress on the outer surface of the specimen at the middle span

Catatan 1: It is calculated based on the relationship given in Equation (5).

Catatan 2: It is expressed in megapascals (MPa).

3.3 Bending stress σFB at fracture

Bending stress of the specimen at fracture

Catatan 1: It is expressed in megabascals (MPa).

Catatan 2: Lihat Gambar 1, curves a and b.

ISO 178-2019 – Penentuan sifat lentur Plastik

3.4 Flexural strength σfM

Maximum bending stress sustained by the specimen during bending test (3.2)

Catatan 1: It is expressed in megabascals (MPa).

Catatan 2: Lihat Gambar 1, curves a and b.

3.5 Bending stress σ under conventional deflection

Bending stress at conventional deflection, sC (3.7)

Catatan 1: It is expressed in megabascals (MPa).

Catatan 2: See also Figure 1, Curve c.

3.6 Deflection s

The distance of the top or bottom surface of the mid-span specimen from its original position during bending

Catatan 1: It is expressed in millimeters (mm).

3.7 Conventional deflection sC

The deflection (3.6) adalah sama dengan 1.5 times the sample thickness H

Catatan 1: It is expressed in millimeters (mm).

ISO 178-2019 – Penentuan sifat lentur Plastik

Catatan 2: Using a 16-h span L, the conventional deflection corresponds to a flexure strain of 3.5% (3.8).

3.8 Bending strain εf

Nominal fractional change in wafer length on the outer surface of the specimen at the mid-span

Catatan 1: It is expressed as a dimensionless ratio or percentage (%).

Komentar 2: It is calculated from the relationship given in equations (6) Dan (7).

Angka 1 — Typical curves of bending stress σf versus bending strain εf and deflection s

ISO 178-2019 – Penentuan sifat lentur Plastik

3.9 Bending strain εFB at fracture

Bending strain of the specimen at fracture

Catatan 1: It is expressed as a dimensionless ratio or percentage (%).

Catatan 2: Lihat Gambar 1, curves a and b.

3.10 Bending strain εfM under bending strength

Bending strain under maximum bending stress

Catatan 1: It is expressed as a dimensionless ratio or percentage (%).

Catatan 2: Lihat Gambar 1, curves a and b.

3.11 Flexural modulus Flexural modulus Ef

Ratio of the stress difference σf2 − σf1 to the corresponding strain difference εf2 (= 0,002 5) − εf1 (= 0,000 5)

Catatan 1: It is expressed in megabascals (MPa).

Komentar 2: The bending modulus is only an approximation of Young’s modulus.

Catatan 3: Please refer to Equation (9).

ISO 178-2019 – Penentuan sifat lentur Plastik

3.12 Rigid plastics

Plastics with an elastic modulus (3.11) in bending hinges or, if not applicable, in stretching, lebih besar dari 700 MPa under the given conditions

[Sumber: ISO 472:2013, 2.884, diubah — entry comments have been omitted.

3.13 Semi-rigid plastics

A plastic with an elastic modulus in a bending hinge (3.11) atau, if this modulus is not applicable, di antara 70 MPa and 700 MPa under tension for the given conditions

[Sumber: ISO 472:2013, 2.909, diubah – entry comments have been omitted.

3.14 Span L between sample supports

The distance between the contact point between the specimen and the specimen holder

Catatan 1: It is expressed in millimeters (mm).

Catatan 2: Lihat Gambar 2.

ISO 178-2019 – Penentuan sifat lentur Plastik

3.15 Bending strain rate r

Rate of increase in bending strain (3.8) during the test

Komentar 1: It is expressed as a percentage per minute (% ⋅ min−1).

Hanya komponen informasi standar yang tersedia untuk umum. Untuk melihat konten selengkapnya, Anda harus membeli standar melalui jalur formal.