Material Group Rules1

These rules are supplemented to the QC Manual for material control.1.Purchasing1.1 The material requisition prepared by Design Dept. is the basis of materialpurchasing, and is supplemented with the purchase specification or drawings orother specific procedures which specifies requirements not covered by the materialrequisition.1.2 The Purchase Department shall maintain a close contact with vendors and ask forinformation on procurement status and necessary documents from the vendor suchas their procedures, the mill test reports or certificate of compliance etc, forreviewing by the Material QC Engineer. If necessary the Purchase Department willapply for source examination at vendor’s shop.1.3 The Purchase Department Supervisor shall be responsible for purchasingmaterials.1.4 The Purchase Engineer shall prepare the purchase order in accordance with thematerial requisition accompanying with its supplementary documents. Thecompleted purchase order shall be approved by the Purchase Dept. Supervisor. ThePurchase Engineer shall send the purchase order, accompanying with purchasespecification as required, to the contracted vendor and also a copy to theExamination Section.1.5 When any part of the specifications or contract conditions is amended, the revisedPurchase Order shall be prepared in the same manner as the original. If theamendment is limited to condition which does not affect the quality or thetechnical matter, such as delivery date, the amended condition may be informedto the vendor by telephone or telex, and shall be noted on a copy of the PurchaseOrder retained by the Purchase Dept..1.6 All of the purchase orders shall be filed for reference.2. Receiving Inspection and Storage2.1 When materials are received, the Material Warehouse Keeper shall place thein-coming material and parts in designated area and request the Material QCEngineer for receiving inspection.2.2 The receiving inspection/。

COMMISSION REGULATION(EC)No2023/2006of22December2006on good manufacturing practice for materials and articles intended to come into contact with food(Text with EEA relevance)THE COMMISSION OF THE EUROPEAN COMMUNITIES,Having regard to the Treaty establishing the European Community,Having regard to Regulation(EC)No1935/2004of the European Parliament and the Council of27October2004on materials and articles intended to come into contact with food(1),and in particular Article5(1)thereof,Whereas:(1)Groups of materials and articles listed in Annex I toRegulation(EC)No1935/2004and combinations ofthose materials and articles or recycled materials andarticles used in those materials and articles should bemanufactured in compliance with general and detailedrules on good manufacturing practice(GMP).(2)Some sectors of industry have established GMPguidelines,while others have not.Consequently,itappears necessary to ensure uniformity among MemberStates as regards GMP for materials and articles intendedto come into contact with food.(3)In order to ensure such conformity,it is appropriate tolay down certain obligations on business operators.(4)All business operators should operate an effective qualitymanagement of their manufacturing operations whichshould be adapted to their position in the supply chain.(5)The rules should apply to materials and articles intendedto be brought into contact with food,or already incontact with food and were intended for this purpose,or those which can reasonably be expected to be broughtinto contact with food or to transfer their constituents tofood under normal or foreseeable conditions of use.(6)The rules on GMP should be applied proportionately toavoid undue burdens for small businesses.(7)Detailed rules should now be set for processes involvingprinting inks and should be established for otherprocesses as necessary.For printing inks applied to thenon-food contact side of a material or article GMPshould in particular ensure that substances are not trans-ferred into food by set-off or transfer through thesubstrate.(8)The measures provided for in this Regulation are inaccordance with the opinion of the StandingCommittee on the Food Chain and Animal Health, HAS ADOPTED THIS REGULATION:Article1Subject matterThis Regulation lays down the rules on good manufacturing practice(GMP)for the groups of materials and articles intended to come into contact with food(hereafter referred to as materials and articles)listed in Annex I to Regulation(EC)No 1935/2004and combinations of those materials and articles or recycled materials and articles used in those materials and articles.Article2ScopeThis Regulation shall apply to all sectors and to all stages of manufacture,processing and distribution of materials and articles,up to but excluding the production of starting substances.The detailed rules set out in the Annex shall apply to the relevant individually mentioned processes,as appropriate.(1)OJ L338,13.11.2004,p.4.Article3DefinitionsFor the purpose of this Regulation,the following definitions shall apply:(a)‘good manufacturing practice(GMP)’means those aspects ofquality assurance which ensure that materials and articles are consistently produced and controlled to ensure conformity with the rules applicable to them and with the quality standards appropriate to their intended use by not endangering human health or causing an unacceptable change in the composition of the food or causing a de-terioration in the organoleptic characteristics thereof;(b)‘quality assurance system’means the total sum of theorganised and documented arrangements made with the purpose of ensuring that materials and articles are of the quality required to ensure conformity with the rules applicable to them and the quality standards necessary for their intended use;(c)‘quality control system’means the systematic application ofmeasures established within the quality assurance system that ensure compliance of starting materials and inter-mediate and finished materials and articles with the specifi-cation determined in the quality assurance system;(d)‘non-food-contact side’means the surface of the material orarticle that is not directly in contact with food;(e)‘food-contact side’means the surface of a material or articlethat is directly in contact with the food.Article4Conformity with good manufacturing practiceThe business operator shall ensure that manufacturing operations are carried out in accordance with:(a)the general rules on GMP as provided for in Article5,6,and7,(b)the detailed rules on GMP as set out in the Annex.Article5Quality assurance system1.The business operator shall establish,implement and ensure adherence to an effective and documented quality assurance system.That system shall:(a)take account of the adequacy of personnel,their knowledgeand skills,and the organisation of the premises and equipment such as is necessary to ensure that finished materials and articles comply with the rules applicable to them;(b)be applied taking into account the size of the business runby the operator,so as not to be an excessive burden on the business.2.Starting materials shall be selected and comply with pre-established specifications that shall ensure compliance of the material or article with the rules applicable to it.3.The different operations shall be carried out in accordance with pre-established instructions and procedures.Article6Quality control system1.The business operator shall establish and maintain an effective quality control system.2.The quality control system shall include monitoring of the implementation and achievement of GMP and identify measures to correct any failure to achieve GMP.Such corrective measures shall be implemented without delay and made available to the competent authorities for inspections.Article7Documentation1.The business operator shall establish and maintain appro-priate documentation in paper or electronic format with respect to specifications,manufacturing formulae and processing which are relevant to compliance and safety of the finished material or article.2.The business operator shall establish and maintain appro-priate documentation in paper or electronic format with respect to records covering the various manufacturing operations performed which are relevant to compliance and safety of the finished material or article and with respect to the results of the quality control system.3.The documentation shall be made available by the business operator to the competent authorities at their request.Article8Entry into forceThis Regulation shall enter into force on the20th day following that of its publication in the Official Journal of the European Union.It shall apply from1August2008.This Regulation shall be binding in its entirety and directly applicable in all Member States. Done at Brussels,22December2006.For the CommissionMarkos KYPRIANOUMember of the CommissionANNEXDetailed rules on good manufacturing practiceProcesses involving the application of printing inks to the non-food contact side of a material or article1.Printing inks applied to the non food-contact side of materials and articles shall be formulated and/or applied in such amanner that substances from the printed surface are not transferred to the food-contact side:(a)through the substrate or;(b)by set-off in the stack or the reel,in concentrations that lead to levels of the substance in the food which are not in line with the requirements of Article 3of Regulation(EC)No1935/2004.2.Printed materials and articles shall be handled and stored in their finished and semi-finished states in such a mannerthat substances from the printed surface are not transferred to the food-contact side:(a)through the substrate or;(b)by set-off in the stack or reel,in concentrations that lead to levels of the substance in the food which are not in line with the requirements of Article 3of Regulation(EC)No1935/2004.3.The printed surfaces shall not come into direct contact with food.。

EC CONVENTION ON THE LAW APPLICABLE TO CONTRACTUAL OBLIGATIONS (Rome 1980)欧盟关于合同债权法律适用的公约（1980罗马第一条例）Title I - Scope of the Convention第一篇公约的适用范围Article 1 - Scope of the Convention第１条公约的适用范围Article 2 - Application of law of non-contracting States第２条非缔约国法律的适用Title II - Uniform Rules第二篇统一规则Article 3 - Freedom of choice第３条选择的自由Article 4 - Applicable law in the absence of choice第４条无选择情况下的适用法律Article 5 - Certain consumer contracts第５条某些消费者合同Article 6 - Individual employment contracts第６条雇佣合同Article 7 - Mandatory rules第７条强制性规则Article 8 - Material validity第８条实质上的效力Article 9 - Formal validity第９条形式上的效力Article 10 - Scope of the applicable law第１０条适用法律的范围Article 11 - Incapacity第１１条无行为能力Article 12 - Voluntary assignment第１２条自愿转让Article 13 - Subrogation第１３条代位求偿权Article 14 - Burden of proof, etc. 第１４条举证责任等Article 15 - Exclusion of renvoi第１５条反致的排除Article 16 - "Ordre public"第１６条“公共政策”Article 17 - No retrospective effect第１７条无追溯效力Article 18 - Uniform interpretation第１８条统一解释Article 19 - States with more than one legal system第１９条具有一个以上法律制度的国家Article 20 - Precedence of Community law第２０条共同体法律的优先适用Article 21- Relationship with other conventions第２１条与其他公约的关系Article 22 - Reservations第２２条保留TITLE III FINAL PROVISIONS 第三篇最后条款Article 23 至Article 33PREAMBLE序言THE HIGH CONTRACTING PARTIES to the Treaty establishing the European Economic Community,ANXIOUS to continue in the field of private international law the work of unification of law which has already been done within the Community, in particular in the field of jurisdiction and enforcement of judgments, WISHING to establish uniform rules concerning the law applicable to contractual obligations, HAVE AGREED AS FOLLOWS:欧洲经济共同体条约的各缔约国，渴望在国际私法领域中继续开展已经在共同体内进行的法律统一工作，特别是在管辖权和执行判决方面已进行的统一，希望就合同债务的适用法律订立统一规则，兹同意如下：TITLE I SCOPE OF THE CONVENTION 第一篇公约的适用范围Article 1 Scope of the Convention 第１条公约的适用范围1. The rules of this Convention shall apply to contractual obligations in any situation involving a choice between the laws of different countries.本公约的规则适用于任何情形下涉及需在不同国家的法律之间进行选择的合同债务。

服装行业英语专业词汇一、单词1. Fabric（布料）- 英语释义：A material made by weaving, knitting, or felting fibres together.- 用法：作名词，可用于描述服装的材质。

- 例句：This dress is made of a soft fabric.（这件连衣裙是由一种柔软的布料制成的。

）2. Style（风格；款式）- 英语释义：A particular design or fashion.- 用法：作名词。

- 例句：The new style of jackets is very popular this season.（这种新款的夹克在这个季节非常流行。

）3. Seam（缝；接缝）- 英语释义：A line where two pieces of fabric are sewn together.- 用法：作名词。

- 例句：The seam on this pair of pants ising undone.（这条裤子上的接缝快开了。

）4. Button（纽扣）- 英语释义：A small disc or knob sewn onto a garment for fastening.- 用法：作名词。

- 例句：There is a missing button on my shirt.（我的衬衫上掉了一颗纽扣。

）5. Zip / Zipper（拉链）- 英语释义：A fastening device consisting of two flexible strips of metal or plastic with interlocking projections closed or opened by pulling a slider.- 用法：作名词。

- 例句：The zip on my jeans is broken.（我牛仔裤上的拉链坏了。

RULES FOR THE MANUFACTURE, TESTING AND CERTIFICATION OFMATERIALS, July 2008Notice No. 1This Notice contains amendments within the following Sections of the Rules for the Manufacture, Testing and Certification of Materials, July 2008.The amendments are effective on the dates shown:Chapter Section Effective date12Whole Chapter 1 August 200813Whole Chapter 1 August 2008It will be noted that the amendments also include corrigenda, which are effective from the date of this Notice. The Rules for the Manufacture, Testing and Certification of Materials July 2008are to be read in conjunction with thisNotice No. 1.The status of the Rules is now:Rules for Materials Effective date:July 2008Notice No. 1Effective date: 1 August 20081Effective date 1 August 2008■Section 1General qualification requirements1.1General1.1.1This Section applies to all welding qualifications and tests required to be performed in the course of new construction, conversions, modifications or repairs made on ships, other marine structures and their associated pressure vessels, machinery and equipment.1.1.2These Rules also apply to all welding work related to other applications for which Lloyd’s Register (hereinafter referred to as LR) have issued Rules or have an interest.1.1.3It is the responsibility of the manufacturer to ensure compliance with all aspects of these Rules. All deviations are to be recorded as non-compliances and brought to the attention of the Surveyor along with the corrective actions taken. Failure to do this is considered to render the welding tests as not complying with the Rules.1.1.4Welding tests are to be performed under survey at the manufacturer’s works. Welding procedure qualification tests and welder qualifications tests are to be performed and approved prior to commencement of fabrication or construction.1.1.5Weld procedure tests made in accordance with EN, ISO, JIS, ASME or AWS may be considered for acceptance provided that, as a minimum, they are equivalent to and meet the technical intent of these Rules to the satisfaction of the Surveyor.1.1.6Welding tests that have previously been carried out may be considered for acceptance, provided that they have been supervised by an independent body acceptable to LR and the Surveyor is satisfied with the authenticity of such tests.1.1.7The responsibility for the performance of the weld tests rests with the manufacturer. Aspects of the welding tests, such as mechanical testing, non-destructive testing and heat treatment, may be subcontracted by the manufacturer provided that the subcontractor performs the work under the technical control and direction of the manufacturer, and this is agreed with the Surveyor prior to commencing the work.1.1.8In these Rules, the term ‘manufacturer’ is considered to include any firm or organisation that performs welding and is considered to be the shipbuilder, or construction firm, or fabricator, or material manufacturer.1.2Design1.2.1Welding procedure qualification tests are required to give assurance that construction welds made in accordance with the approved plans or the approved design have acceptable properties. It is the manufacturer’s responsibility to establish and document whether a procedure is suitable for a particular application.1.2.2The requirements relate to mechanical properties of the weld and heat affected zone, however, other tests may be required on certain materials, for example, corrosion or fatigue tests, in order to ensure suitability for the proposed application.1.3Materials1.3.1Materials used for testing are to be of the same grade, type and from the same manufacturing process as those to be used for construction, unless prior agreement is obtained from the Surveyor. Such agreements will only apply on a case-by-case basis.1.3.2All materials used for testing are to be suitably marked and identifiable to the original manufacturer’s material certificate.1.4Performance of welding tests1.4.1All welding and subsequent testing is to be performed in accordance with the requirements of this Chapter.1.4.2The manufacturer is responsible for monitoring the tests and for recording all the welding variables as specified in2.2 and for compiling all the non-destructive examination (NDE) reports and mechanical test records for submission to the Surveyor.1.4.3The laboratory or testing establishment used to perform the tests is to have the necessary equipment,maintained in good order and suitably calibrated. The Surveyor is to be satisfied that the laboratory personnel have the appropriate skills and are appropriately qualified in accordance with Ch 2,1.2.1.Chapter 12Fabricated Steel Sections2Chapter 12Chapter 12Welding QualificationsExisting Chapter 12 has been deleted and replace by a new Chapter 12.3Chapter 122.3Steel test assemblies2.3.1Tests are to be performed using the welding process and positions anticipated for actual construction. The weld test assemblies are to be representative of construction conditions and are to be welded in the same manner as intended for the actual production welds. Where pre-fabrication primers are used in the shipyard, these are to be included in the test assemblies.2.3.2For plate tests, the direction of plate rolling relative to the weld direction is to be considered. Where the material used for the test requires longitudinal impact tests, the plate rolling direction is to be perpendicular to the weld direction and for material which requires impact testing in the transverse direction, the rolling direction is to be parallel to the weld direction.2.3.3Typical test assemblies are shown in Fig. 12.2.1(a)to (c). These are a minimum requirement to permit the removal of all the necessary mechanical test specimens.Where impact tests or other toughness tests are required, the total width is not to be less than 8 times the material thickness of the thicker material being joined.2.3.4Welding procedure test assemblies are to be welded separately from production welds and are to be marked with the unique test identification number. The individual pieces of the test assembly may be held together to maintain their relative joint conditions by means of suitable tack welds, clamps or strongbacks.2.3.5Welding of the test assemblies and testing of test specimens is to be monitored by the Surveyor.■Section 2Welding Procedure Qualification Tests for Steels2.1General2.1.1The requirements of this Section relate to welding procedure test requirements of carbon, carbon-manganese steels and low alloys steels. Additional requirements for austenitic and austenitic/ferritic duplex stainless steels,aluminium and copper alloys are specified in Sections 3 and 4 respectively.2.1.2Prior to performing the welding procedure qualification test, the manufacturer is to present to the Surveyor a preliminary Welding Procedure Specification (pWPS) detailing the welding processes, positions, joint types, materials and heat treatments to be performed during the test. The pWPS is to be presented for information prior to commencing the test.2.1.3The type and extent of testing to be applied to each welding procedure test is to be in accordance with subsequent Sections of this Chapter.2.1.4For the welding procedure approval, the welding procedure qualification tests given in this Section are to be carried out with satisfactory results. Welding procedure specifications are to refer to the test results achieved during welding procedure qualification testing.2.2Welding variables2.2.1In order that the conditions of the qualification test may be applied to production welding operations, the appropriate variables are to be recorded by the manufacturer during welding and testing from the following list:(a)The unique qualification reference number and the dateof welding;(b)The material type, grade, product form, dimensions andidentification;(c)Welding process(es), including tack welds;(d)Joint type, dimensions and surface condition;(e)Welding position(s);(f)Welding technique(s), weaving, multiple electrodes, etc;(g)Welding consumables including fluxes, shielding gases,etc;(h)Control of consumables, baking or drying conditions,etc;(j)Welding parameters, current, voltages, travel speeds,etc;(k)Number and sequence of weld runs;(l)Backing materials including any backing gas;(m)Preheats and interpass temperatures;(n)Methods used for cleaning and inspection of rootdeposits;(o)Post-weld heat treatment, temperature and cycle times;(p)Special weld profiling requirements.2.2.2Other variables may need to be recorded depending on the particular welding process or application and are to be agreed with the Surveyor, for example the peak and base current and cycle times for pulse welding, electrode type and nozzle size for GTAW welding, etc.LD (discard)t (thickness)Rolling direction for plates with longitudinal CharpysRolling direction for plates with transverse CharpysW 2W 24607/25Welding Processes L (min)W (min)D (min)mm mm mm Manual/Semi-automatic 35030050Automatic100040075Fig. 12.2.1(a) Butt weld test assembly in plate42.3.6The test assembly is to be placed in one of the welding positions shown in Fig. 12.2.2(a) to (d), as specified in the test Welding Procedure Specification (pWPS) and the specified level of preheat applied prior to the start of welding.2.3.7D esignations for equivalent welding positions shown by different standards are shown in Table 12.2.1.2.4Welding of steel test assemblies2.4.1Welding of the test assembly is to be carried out in accordance with the agreed pWPS. Where, during the progress of the test, it is found necessary to change the conditions specified on the pWPS, this is to be brought to the attention of the Surveyor. If agreed, the test may be permitted to continue with the new conditions and these are to be recorded.2.4.2Where the production work requires welding over tack welds, the test is to simulate this condition and the tack welds are to be included in the inspection length of the test weld and their position recorded.2.4.3For manual and semi-automatic welding processes, weld stops and re-starts are to be included in the inspection length of the test weld.2.4.4Fillet weld test assemblies are welded on one sideonly.2.4.5Where the construction welding is predominately fillet welding, in addition to the butt weld qualification test, a fillet weld qualification test is to be performed to confirm that acceptable weld quality is achieved.DLLL = 150 mm minimum D = Outside diameterDWLW 24607/26M a c r oM a c r oF r a c t u r eM a cr oF r a c t u r eWelding Processes L (min)W (min)D (min)mm mm mm Manual/Semi-automatic 35030050Automatic 100030075Fig. 12.2.1(c) Fillet weld test assembly in plateFig. 12.2.1(b) Butt weld test assembly in pipeChapter 12Plate butt weldsFlat Horizontal Vertical, weld upVertical, weld down Overhead Pipe butt welds Pipe horizontal,rotated, weld horizontalPipe vertical, notrotated, weld horizontal Pipe horizontal, not rotated, weld flat,vertical and overhead Pipe inclination fixed,not rotated Plate fillet welds FlatHorizontal Vertical up Vertical down Overhead Pipe fillet welds Flat, pipe rotated Horizontal, pipe fixedHorizontal, pipe rotatedOverhead, pipe fixed Multiple, pipe fixedD X Vu Vd OD X D+Vu+O D+Vd+O 45°D X Vu Vd OD X D O D+Vu+O D+Vd+OISO 6947PA PC PF PG PEPA PC PFH-L045J-L045PA PB PF PG PDPA PB PB PD PF PGAWS1G 2G 3G 3G 4G1G 2G 5G6G1F 2F 3F 3F 4F1FR 2F 2FR 4F 5FTable 12.2.1Equivalent designations of welding positionsWeld positionStandard5Chapter 12D PositionX PositionAxis@ 45˚ PositionPipe or tube vertical and not rotated during welding Weld horizontalPipe horizontal and rotated Weld flatPipe or tube horizontal,not rotated during weldingWeld flat, vertical and overheadPipe inclination fixed and not rotated during weldingHorizontal2665/0545˚D + Vu + O orD + Vd + O PositionPosition of pipes and welds for qualification weld test assembliesFig. 12.2.2(b) Pipe butt weld test positionsFlat(Plates horizontal)Horizontal (Plates vertical)Vertical (Plates vertical)Overhead (Plates horizontal)2665/06D PositionX PositionVu & Vd PositionsO PositionPosition of test plates for plate assembliesFig. 12.2.2(a) Plate butt weld test positions2.5.6As an alternative to radiography, ultrasonic examination may be carried out and acceptance criteria that are considered to result in equivalent weld quality are to be agreed, with the Surveyor, prior to the tests being carried out.Ultrasonic testing will be subject to the thickness limitation specified in Ch 13,2.12.5.2.5.7Where the test assembly does not satisfy the non-destructive examination acceptance criteria, the test is to be rejected. A duplicate test assembly may be welded using the original welding conditions. If this fails ND E, the welding procedure is to be considered as incapable of achieving the requirements without modification.2.5.8Subject to prior agreement with the Surveyor,where unacceptable imperfections are of a volumetric nature and are localised in one small area of the test assembly, the test may be permitted to continue and specimens for destructive testing may be removed, avoiding this area.62.5Non-destructive examination (NDE)2.5.1On completion of welding, prior to sectioning for mechanical tests, the inspection length of the test assembly is to be subjected to both visual examination and surface crack detection.2.5.2Butt weld assemblies are also to be subjected to radiographic or ultrasonic examination over the whole inspection length of the weld.2.5.3For welds in steels with specified yield strength up to 400 N/mm 2, and with carbon equivalent less than or equal to 0,41 per cent, NDE may be performed as soon as the test assembly has cooled to ambient temperature. For other steels, NDE is to be delayed for a period of at least 48 hours after the test assembly has cooled to ambient temperature.2.5.4Where post-weld heat treatment is required, ND E is to be performed after the heat treatment is complete.2.5.5ND E is to be performed in accordance with procedures acceptable to LR. Assessment of results is to be in accordance with ISO 5817 Level B except for excess convexity and excess throat thickness where Level C will apply.Chapter 12Throat of weld verticalAxis of weld horizontalAxis of weld horizontalAxis of weld horizontalAxis of weld verticalVERTICALPosition Vu & VdOVERHEAD Position ON OTE : One plate must be horizontalN OTE : One plate must be horizontalFLAT Position D HORIZONTALPosition X2665/02Fig. 12.2.2(c) Plate fillet weld test positions7Chapter 122.7Destructive tests for steel butt welds2.7.1The test assembly is to be sectioned for mechanical testing in accordance with Figs. 12.2.3 or 12.2.4.2.7.2The longitudinal all weld metal tensile test specimen is to be of circular cross-section as detailed in Ch 11,2.1 and Fig. 11.2.1. Where more than one welding process or type of consumable has been used to make the weld, test specimens are to be removed from each respective area of the weld. This does not apply to the process or consumables used to make the root or first weld run. During the test, the yield or proof stress, ultimate tensile strength, and elongation to failure are to be recorded.2.7.3Where approved welding consumables have been used, the longitudinal all weld metal tensile test may be omitted.2.7.4The transverse tensile test specimen is to be of full thickness with the dimensions shown in Fig. 11.2.2. The tensile strength and fracture locations are to be reported.2.6Destructive tests – General requirements 2.6.1The weld test assembly may only be sectioned for destructive testing after any heat treatment and the required non-destructive examinations have been completed successfully.2.6.2The dimensions of the test specimens and testing conditions are to be in accordance with the requirements specified in Chapter 2.2.6.3The results of destructive tests are to be assessed in accordance with the acceptance criteria specified in 2.12,unless other, more stringent requirements are specified for the application.2.6.4Where a weld test is made between materials of different grades, the acceptance criteria that are to be applied are those applicable to the lower grade material.Flat Rotated D Position Horizontal (Fixed)X Position Horizontal (Rotated)D PositionOverhead (Fixed)O PositionMultiple (Fixed)D + Vu + O orD + Vd + O Position2665/0345˚45˚Fig. 12.2.2(d) Pipe fillet weld test positions82.7.5Where the maximum load required to fracture the transverse tensile specimen is likely to exceed the capacity of the tensile testing equipment, several tensile specimens may be removed through the thickness and tested. Specimens are to be prepared such that they overlap in the thickness direction so that the full plate thickness is tested.Chapter 122665/07Test requirementsA One macro including hardness surveyB All weld metal tensile testC Four bend tests.Two root bends and two face bends for thickness up to 12 mm.For thickness above 12 mm four side bends D Two transverse tensilesE Five sets of Charpy V-notch impact tests, notched at the following positions:1 set at weld centre 1 set at fusion line (FL)1 set at FL +2 mm1 set at FL + 5 mm (if required by Figs. 12.2.6 and 12.2.7)1 set at FL + 10 mm (if required)of weldC L For retests if necessaryApproximately 300 mmC EC CDDBA CFig. 12.2.3Butt welds in plate and pipe over 750 mm diameterThe diameter of the test piece is to be a minimum of D /2whereD is the maximum diameter of the pipe to be welded in construction Test requirements A Visual examinationB Surface crack detectionC 100% radiographic examinationD Two transverse tensile testsE Four bend tests.Four side bends for thickness greater than 12 mm.In other cases, two face and two root bends F Four sets Charpy V-notch impact tests1 set notched at centre of weld 1 set notched at fusion line (FL)1 set notched at FL +2 mm1 set notched at FL + 5 mm (if required by Figs. 12.2.6 and 12.2.7)G One macro specimen including hardness surveyDEEF500 mm approximatelyGDEEFig. 12.2.4Butt welds in pipe less than 750 mm diameter2.7.6Transverse bend specimens of rectangular section are to be prepared with the weld centred in the middle of the specimen as shown in Fig. 12.2.5. For material of thickness 12 mm or greater, the face and root bends may be substituted by side bend tests. The weld reinforcement may be removed by grinding or machining prior to testing and the edges rounded to a radius not exceeding 10 per cent of the specimen thickness. Each specimen is to be bent through an angle of at least 180°. The bend test ratio is to be the lesser of the following:(a)D f =(D /t ) + 1or(b)D f =100/E m (rounded up to the next whole number)whereD f =is the bend test ratio(D /t )=is the value from Tables 11.3.3, 11.4.3 or 11.8.2,as appropriateE m =is the minimum specified percentage elongationfor the test material (based on a proportional gauge length of 5,65 )2.7.7Where the weld test is made between different material types, the requirements of 2.7.8 are to be applied to the material with the lower toughness specification.2.7.8For hull structural steels, impact test specimens are to be prepared from the locations shown in Figs. 12.2.6 or 12.2.7, with the notch perpendicular to the plate surface and have the dimensions and proportions in accordance with Ch 2,3. Where more than one welding process or type of consumable has been used to make the weld, test specimens are also to be removed from these respective parts of the weld. Note that this does not apply to the welding process or consumables used solely to make the root or first weld run. Where the weld thickness exceeds 50 mm, an additional set of impact tests is required from the root area of the weld irrespective or whether different welding process or welding consumables are used as shown in Figs. 12.2.6 and 12.2.7.S 0 2.7.9For offshore structures and pressure vessels,impact test specimens are not required to be notched at the FL + 10 mm location. Where more than one welding process or type of consumable has been used to make the weld, test specimens are to be removed from the respective areas of the weld. This does not apply to the process or consumables used solely to make the root or first weld run.2.7.10At least one macro examination specimen is to be removed from the test plate, near the end where welding started. The specimen is to include the complete cross-section of the weld and the heat affected zone and be prepared and etched to clearly reveal the weld runs and the heat affected zone. Examination is to be performed under a magnification of between x5 and x10.2.7.11 A chemical analysis of the weld metal is to be performed on the macro specimen where approved welding consumables have not been used. The results are to comply with the limits given in the welding consumable specification. 2.7.12 A Vickers hardness survey is to be performed on the macro specimen taken from the weld start end of the test assembly in accordance with that shown in Fig. 12.2.8, using a test load not in excess of 10 kg. For each row of indents,there are to be a minimum of 3 individual indentations in the weld metal, the heat affected zones (both sides) and the base metal (both sides). The recommended distance between indents is 1,0 mm, but the distance between indents should not be less than the minimum specified in ISO 6507/1.2.8Destructive tests for steel fillet welds2.8.1Fillet weld test assemblies are to be sectioned for destructive testing in accordance with Fig. 12.2.1(c) and as follows:(a)two fracture tests;(b)three macro-sections;(c)one hardness survey.2.8.2Two fracture test specimens are to be removed from the test weld and are to be subjected to testing by bending the upright plate onto the through plate to produce fracture,as shown in Fig. 12.2.1(c).2.8.3At least three macro examination specimens are to be removed from the test plate. The specimens are to include the complete cross-section of the weld and the heat affected zone and is to be prepared to clearly reveal the weld runs and the heat affected zone. One of the specimens is to include a weld stop/start position. Examination is to be performed under a magnification of between x5 and x10.2.8.4 A Vickers hardness survey is to be performed on the macro specimen taken from the weld start end of the test assembly in accordance with that shown in Fig. 12.2.9, using a test load not exceeding 10 kg.(a) root or face bend specimen t ≤ 12 mmt1,5tWeld (b) side bend specimen t = material thicknesst10 mmFig. 12.2.5 Transverse bend test specimens2.9Destructive tests for T, K, Y steel nozzle welds 2.9.1Full penetration ‘T', ‘K’ and ‘Y’ joints for structural applications and nozzle welds for pressure vessels are to be sectioned for testing in accordance with Fig. 12.2.10 and tested as detailed below:(a)three macro specimens;(b)impact tests from the weld, fusion line and fusion line + 2(where the material thickness permits);(c)one hardness survey.In addition, butt weld tests are to be performed in accordance with 2.7, using the same welding conditions, in order to verify acceptable weld and heat affected zone properties.2.9.2The impact tests are to be removed from the vertical (up) position ‘B’ in Fig. 12.2.10 and tested in accordance with 2.7.8.2.9.3 A Vickers hardness survey is to be performed on the macro-section removed from position ‘A’ or ‘C’ in accordance with that shown in Fig. 12.2.11 using a test load not exceeding 10 kg.2.10Destructive tests for steel pipe branch welds2.10.1Pipe branch welds may be by either full penetration, partial penetration or fillet welded, depending on the application and the approved plans. Where these types of welded joints are used, tests are to be performed which simulate the construction conditions.2.10.2The test weld assembly is to simulate the smallest angle between the branch and main pipe and is to be subjected to macro-examination and hardness testing, as follows:(a)For a branch weld that is full penetration, testing is to beperformed in accordance with the requirements for ‘T',‘K’ and ‘Y’ joints in 2.9.(b)For a branch weld that is either a partial penetration orfillet weld, testing is to be in accordance with the require-ments for fillet welds in 2.8.ab c1-2 mma b c1-2 mm2nd side1st sideab c1-2 mm2nd side1st sideaab c1-2 mmab(a) t ≤ 50 mm (1)(a) t > 50 mmN OTE :(1) For one side single run welding over 20 mm notch location 'a' is to be added on root sideNotch locations:a :centre of weld 'WM'b :on fusion line 'FL'c :in HAZ, 2mm from fusion lineFig. 12.2.6 Locations of V-notch for butt weld of normal heat input (heat input ≤50 kJ/cm)2.12Mechanical test acceptance criteria for steels2.12.1Longitudinal all weld metal tensile test :(a)In general, the longitudinal all weld tensile test is to meetthe minimum properties specified in Tables 11.3.2 or 11.4.2, as appropriate to the grade of steel and welding process used in the test.(b)Where the application is such that no consumableapprovals are specified in Chapter 11, the longitudinal all weld tensile test tensile is to meet the minimum proper-ties specified for the base materials used in the test.(c)For pressure vessels manufactured from carbon orcarbon/manganese steels, the tensile strength from the longitudinal all weld tensile test is not to be less than the minimum specified for the plate material and is not to be more than 145 N/mm 2above this value (see Ch 13,4.8.3).2.12.2Transverse tensile test : The tensile strength measured from the transverse tensile test is not to be less than the minimum specified for the base material used in the test.2.11Destructive tests for weld cladding of steel 2.11.1Where weld cladding or overlay is allowed by Chapter 13, and is considered as providing strength to the component to which it is welded, the type and location of test specimens are to be in accordance with Fig. 12.2.12, except that micro-sections are not required. Impact tests may be omitted where the base material does not have specified impact properties. The longitudinal tensile and bend tests are to be tested in a similar manner to transverse specimens specified in 2.7.2 and 2.7.6, respectively.2.11.2Where the weld cladding is not considered as contributing to the strength of the component, but is required for corrosion or wear resistance, the type and location of test specimens are to be in accordance with Fig. 12.2.12, except that tensile and impact tests are not required.2.11.3Where the weld cladding is applied for corrosion resistance, in addition to the above, weld metal analysis is to be performed on one of the micro-sections, on a surface parallel to the weld surface but 2 mm deep. The analysis is to be within the limits specified for the corrosion resistance required.ab c 1-2 mma b c 1-2 mm2nd side1st sideab c 1-2 mm2nd side1st sideaab c 1-2 mmab (a) t ≤ 50 mm (1)(a) t > 50 mmN OTE :(1) For one side welding with thickness over 20 mm notch location 'a', 'b' and 'c' are to be added on root sideNotch locations:a :centre of weld 'WM'b :on fusion line 'FL'c :in HAZ, 2 mm from fusion lined :in HAZ, 5 mm from fusion linee :in HAZ, 10 mm from fusion line in case of heat input > 200 kJ/cmdededecdecFig. 12.2.7 Locations of V-notch for butt weld of high heat input (heat input > 50 kJ/cm)。

名校课堂八上英语背记本范文背记全文共3篇示例，供读者参考篇1Title: Back-to-school Notebook for Eighth Grade English at a Top SchoolAs students return to school for their eighth-grade year at a prestigious institution, it is important to have the right tools to succeed in their classes. One essential item for English class is a back-to-school notebook dedicated to keeping track of important information, vocabulary, and notes for English class. In this article, we will discuss the importance of having aback-to-school notebook, as well as provide a sample template for what to include in it.Why have a back-to-school notebook for English class?Having a dedicated notebook for English class can help students stay organized and focused. By having all of their notes, vocabulary lists, and class assignments in one place, students can easily reference important information when studying for tests or completing homework assignments. Additionally, aback-to-school notebook can serve as a record of the student'sprogress throughout the school year, allowing them to track their growth and improvement in their English skills.What to include in a back-to-school notebook for English class:1. Vocabulary List:- Create a section in your notebook dedicated to vocabulary lists. Each week, write down the new words introduced in class, along with their definitions and example sentences. Review these lists regularly to strengthen your vocabulary and language skills.2. Grammar Rules:- Keep track of important grammar rules and concepts in your notebook. Write down explanations, examples, and practice exercises to reinforce your understanding of English grammar.3. Reading Responses:- After reading assigned texts or passages in class, jot down your thoughts, reactions, and questions in your notebook. This will help you engage with the material more deeply and prepare for class discussions.4. Writing Samples:- Practice writing different types of compositions, such as essays, stories, and letters, in your notebook. Keep a collection of your writing samples to track your progress and see how your skills improve over time.5. Class Notes:- During class, take detailed notes on the teacher's lectures, discussions, and presentations. Write down key points, examples, and important information to refer back to later when studying for exams or completing assignments.Sample Template for a Back-to-School Notebook:Cover Page: English Class NotebookTable of Contents:1. Vocabulary Lists2. Grammar Rules3. Reading Responses4. Writing Samples5. Class NotesEach section of the notebook should be organized with clear headings and dividers to make it easy to find information quickly.Use a pen or marker to highlight key points and important details in your notes.In conclusion, having a back-to-school notebook for English class can be a valuable tool for students to succeed in their studies. By keeping track of vocabulary lists, grammar rules, reading responses, writing samples, and class notes in one place, students can improve their English skills and excel in their eighth-grade English class. Make sure to personalize your notebook with colorful decorations, stickers, or drawings to make it a fun and inspiring place to record your learning journey.篇2Title: A Guide to Memorizing Lessons in Class 8 English at Prestigious SchoolsIntroduction:Memorizing lessons in English class can be a challenging task for many students. However, with the right techniques and strategies, students can effectively retain and recall information for exams and assignments. This guide will provide tips and tricks to help students excel in their Class 8 English courses at prestigious schools.1. Organize Your Notes:One of the key steps to memorizing lessons is to organize your notes in a systematic way. Create a separate notebook or binder for your English class and categorize your notes by topic or unit. This will make it easier to review and study specific lessons when needed.2. Use Visual Aids:Visual aids such as flashcards, diagrams, and mind maps can help reinforce your memory of important concepts and vocabulary. Create flashcards for key terms and definitions, and use diagrams to visually represent complex ideas. Mind maps are also useful for connecting related concepts and organizing information in a structured manner.3. Review Regularly:Consistent review is essential for retaining information in your long-term memory. Set aside dedicated time each day to review your notes and practice recalling key points. Repetition is key to strengthening your memory and improving your understanding of the material.4. Practice Active Recall:Instead of simply reading through your notes passively, engage in active recall by testing yourself on the material. Askyourself questions about the lesson, and try to answer them without referring to your notes. This technique helps reinforce your memory and improves your ability to recall information during exams.5. Use Mnemonic Devices:Mnemonic devices are memory aids that help you remember information through associations or patterns. Create acronyms, rhymes, or visual images to connect new knowledge with familiar concepts. Mnemonic devices can make memorization fun and creative, making it easier to retain information.6. Collaborate with Peers:Studying with classmates can be beneficial for reinforcing your memory of lessons. Organize study groups with your peers to discuss and review the material together. Explaining concepts to others can help solidify your understanding and recall of the information.7. Seek Help from Teachers:If you are struggling to memorize certain lessons, don't hesitate to seek help from your English teacher. Teachers can provide additional resources, clarify confusing points, and offerguidance on effective study strategies. Don't be afraid to ask questions and seek support when needed.8. Stay Consistent and Persistent:Memorizing lessons takes time and practice, so stay consistent and persistent in your efforts. Don't wait until the last minute to study for exams or assignments. Regular review and practice will help you build a strong foundation of knowledge and succeed in your Class 8 English course.Conclusion:Memorizing lessons in English class requires dedication, organization, and effective study techniques. By following the tips outlined in this guide, students at prestigious schools can enhance their memory retention and excel in their Class 8 English courses. Remember to stay organized, review regularly, practice active recall, and seek help when needed. With perseverance and commitment, success in memorizing lessons is within reach. Good luck!篇3Title: Notes for Class Eight English at a Prestigious SchoolAs students at a prestigious school, it is important to take our studies seriously and strive for excellence in all our academic endeavors. One of the key aspects of studying English is keeping a detailed and organized set of notes that will help us in understanding and retaining the information covered in class. In this article, we will discuss the importance of maintaining a backnote for Class Eight English and provide some helpful tips on how to do so effectively.First and foremost, a backnote for Class Eight English should be a comprehensive and detailed record of all the topics covered in class. This includes vocabulary words, grammar rules, literary devices, and any other important information that is discussed during lessons. By keeping thorough notes, you will have a valuable resource to refer back to when studying for exams or completing assignments.In addition to being detailed, your backnote should also be well-organized and easy to navigate. Consider using tabs or dividers to separate different topics, and make sure to date each entry so that you can easily track your progress throughout the school year. Color coding or highlighting key information can also be helpful in making your notes more visually appealing and easier to review.Another helpful tip for maintaining a backnote for Class Eight English is to review and revise your notes regularly. Set aside time each week to go over your notes from previous lessons, and make any necessary additions or corrections. This will help reinforce your understanding of the material and ensure that you are fully prepared for quizzes and tests.Finally, don't be afraid to personalize your backnote to suit your own learning style. Some students find that sketching diagrams or creating mind maps helps them better understand complex concepts, while others prefer using bullet points or lists to summarize key information. Experiment with differentnote-taking techniques to find what works best for you.In conclusion, keeping a backnote for Class Eight English is an essential part of achieving academic success at a prestigious school. By maintaining detailed, organized, and regularly reviewed notes, you will be better equipped to excel in your studies and reach your full potential as a student. Start building your backnote today and see the positive impact it can have on your learning experience.。