Test data for uniaxial creep on material INCONEL 617 at 800 Celsius and a stress of 83.03 MPa

The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas ducting. Several batches and product forms (forged bar, rolled plate, pipes and tubes) of the alloy were investigated and special attention was given to the effects of the service environments (helium containing different impurity gases, such as hydrogen, water vapour, carbon monoxide and methane, all at microbar levels, and methane reforming gas mixture) on the properties. In the test machines, these test environments led to carburisation of test pieces. However, analysis of the data showed that the stress rupture data for tests in air, in impure helium and in methane reforming gas lay in the same scatter band at each temperature tested. The creep rupture tests were carried out in single-specimen and multi-specimen test machines. In the single specimen machines the strain was continuously monitored and strain readings were taken once a day. In the multi-specimen test rigs, there were six strings, each with a different load. There were up to eight test pieces per string and strain measurements were made by interrupting the tests, cooling to room temperature, then measuring the length of each test piece using a travelling microscope. Test interruptions for strain measurements were generally every 1000 h. The tests were carried out according to the German Standard DIN 50118 (1982). The data (secondary creep rate, time to 1% strain, time to rupture) were used for the formulation of draft nuclear design rules for the high temperature reactor systems, which are summarised in 'Proceedings of the Workshop on Structural Design Criteria for HTR', G Breitbach, F Schubert, H Nickel, Jül-Conf-71, April 1989, Berichte der Kernforschungsanlage Jülich GmbH, ISSN 0344-5798. In addition to the creep rupture data, Alloy 617 tensile properties, low cycle fatigue and creep crack growth data are stored in MatDB.

本数据集收录的617合金（Alloy 617）蠕变断裂数据，是为联邦德国与北莱茵-威斯特伐利亚州的高温堆项目（直接循环氦气轮机项目、核工艺热项目及区域供热项目）测定所得，旨在验证该合金在最高950℃工况下的服役适用性。617合金是氦-氦中间热交换器与热气体管道建造的首选候选合金。研究覆盖了该合金的多批次不同产品形态，涵盖锻造棒材、轧制板材、管材与管件，并重点考察了服役环境对材料性能的影响：这些环境包括含微量杂质气体（氢气、水蒸气、一氧化碳、甲烷，均处于微巴量级）的氦气，以及甲烷重整混合气体。在试验机环境中，这类测试介质会引发试样渗碳。但数据分析结果显示，在各测试温度下，空气、不纯氦气及甲烷重整气体环境中获得的应力断裂试验数据，均处于同一离散带内。 本次蠕变断裂试验分别采用单试样试验机与多试样试验机完成。单试样试验机中，应变被连续监测，且每日记录一次应变读数。多试样试验台共设置6组加载工况，每组工况对应不同载荷，每组最多搭载8个试样；应变测量需通过中断试验、冷却至室温后，使用读数显微镜测量每个试样的长度来完成。用于应变测量的试验中断周期通常为每1000小时一次。所有试验均严格遵循德国标准DIN 50118（1982）执行。 本数据集包含的（二次蠕变速率、1%应变对应时间、断裂时间）三类数据，被用于制定高温堆系统的核设计规范草案，相关内容总结于《高温堆（HTR）结构设计准则研讨会论文集》（G Breitbach、F Schubert、H Nickel 编撰，Jül-Conf-71，1989年4月，于利希核研究中心有限责任公司报告，ISSN 0344-5798）中。除蠕变断裂数据外，617合金的拉伸性能、低周疲劳及蠕变裂纹扩展数据均存储于MatDB中。