- In the preparation of high-strength alloy materials, the ______ of grain size is critical, as finer grains can significantly enhance the material's tensile strength and toughness.(2008 年中科院考博英语词汇题改编)
A. control
B. collection
C. conservation
D. conduction
- In metal corrosion research, scientists need to ______ the interaction between the metal surface and the surrounding environment—small changes in pH value or oxygen concentration may accelerate the corrosion process.(2008 年中科院考博英语完形题改编)
A. monitor
B. modify
C. memorize
D. mobilize
Passage One
Titanium alloys are widely used in aerospace, biomedical, and marine engineering due to their high strength-to-weight ratio and excellent corrosion resistance. However, traditional titanium alloy processing relies on hot working methods (e.g., forging at 800-1000℃), which consume large amounts of energy and easily cause material defects such as internal cracks.
Researchers at the Chinese Academy of Sciences Institute of Metal Research recently developed a "cryogenic rolling + aging" process. By rolling titanium alloy sheets at -196℃ (liquid nitrogen temperature) and subsequent aging at 500℃, they reduced the grain size from 50 μm (traditional method) to 2 μm, while increasing the tensile strength by 35% and reducing energy consumption by 40%. This technology not only solves the energy and defect problems of traditional processing but also expands the application of titanium alloys in lightweight aerospace components.
- What is the key advantage of the "cryogenic rolling + aging" process?(2008 年中科院考博英语阅读题改编)
A. It reduces the cost of titanium alloy raw materials.
B. It improves titanium alloy performance and saves energy.
C. It eliminates the need for subsequent heat treatment.
D. It simplifies the titanium alloy forming process.
(1) The development of advanced metal matrix composites is not only crucial for improving the performance of key components in aerospace and automotive industries but also plays a vital role in promoting the lightweight and energy-saving transformation of manufacturing.(2008 年中科院考博英语翻译题改编)
TOPIC: Discuss the role of advanced processing technologies in promoting the high-quality development of the metal materials industry. Please support your argument with specific examples.(2026 年考博英语热点预测题,参照中国科学院金属研究所命题规律)
- 考点定位:本题考查名词词义辨析与金属材料制备语境适配,核心是 “匹配‘晶粒尺寸’与‘材料力学性能’的逻辑关联”,属于考博英语词汇题中 “学术场景 + 词义精准度” 的典型题型,占词汇部分总分值的 10%(0.5/5 分)。
- 选项拆解与排除:
- A. control(控制):核心含义为 “对事物状态或过程进行调节以达到预期目标”,与 “通过控制晶粒尺寸提升合金强度与韧性” 的金属材料制备逻辑完全契合,“grain size control”(晶粒尺寸控制)是金属材料领域的核心技术术语,符合专业语境;
- B. collection(收集):侧重 “将分散事物聚集”,与 “晶粒尺寸调节” 无关,无法解释 “晶粒细化影响性能” 的过程,排除;
- C. conservation(保护;节约):多用于 “资源保护、能量节约”,不能用于 “晶粒尺寸” 的技术场景,搭配不当,排除;
- D. conduction(传导):指 “热、电等能量的传递”,与 “晶粒尺寸”“材料强度” 等话题无关联,排除。
- 备考拓展:考博英语词汇题中,金属材料领域学术词汇占比超 40%。结合中国科学院金属研究所研究方向,建议重点积累 “材料加工相关词汇”(如 “forging 锻造”“heat treatment 热处理”“corrosion resistance 耐腐蚀性”),可通过《金属学与热处理》(崔忠圻版)、《材料科学基础》等专业课教材同步记忆,强化 “英语 + 专业” 联动理解。
- 考点定位:本题考查动词词义辨析与金属腐蚀研究语境衔接,核心是 “准确概括‘追踪金属与环境相互作用’的科研行为”,属于完形填空 “学术语境 + 动词功能” 的核心题型,占完形部分总分值的 6.7%(1/15 分)。
- 语境分析:题干破折号后明确逻辑 ——“small changes in pH value or oxygen concentration may accelerate the corrosion process”(pH 值或氧浓度的微小变化会加速腐蚀),由此可知,科学家需 “实时追踪这种相互作用以预警腐蚀风险”,需填入体现 “监测、追踪” 含义的动词。
- 选项拆解与排除:
- A. monitor(监测;追踪):侧重 “持续观察并记录事物变化”,与 “金属腐蚀研究中监测环境参数与腐蚀进程的关联” 完全匹配,符合科研场景需求;
- B. modify(修改;调整):指 “主动改变事物属性”,题干未涉及 “调整金属表面或环境参数” 的操作,与 “研究相互作用” 的目标无逻辑关联,排除;
- C. memorize(记忆;记住):仅表示 “存储信息”,无法体现 “实时追踪变化” 的动态科研过程,排除;
- D. mobilize(动员;调动):多用于 “资源、人员的调配”,不能用于 “金属与环境相互作用” 的技术语境,排除。
- 备考拓展:完形填空的 “科研行为类动词” 是中科院考博高频考点,需结合金属材料实验场景理解。针对金属研究所特色,建议积累 “腐蚀与防护相关动词”(如 “detect 检测”“evaluate 评估”“inhibit 抑制”),可通过研读《腐蚀科学与防护技术》期刊论文或所内科研成果报告,强化专业语境感知。
- 考点定位:本题考查细节理解题的 “学术信息提取 + 同义转换”,核心是 “精准捕捉深冷轧制 + 时效工艺在钛合金加工中的核心优势”,属于阅读理解 “科技类文本 + 细节定位” 的高频题型,占阅读部分总分值的 5%(1.5/30 分)。
- 原文定位与逻辑分析:根据题干关键词 “cryogenic rolling + aging”,锁定原文关键信息:“reduced the grain size... while increasing the tensile strength by 35% and reducing energy consumption by 40%”,且前文明确指出传统方法的缺陷是 “high energy consumption and material defects”,由此可见该技术的核心优势是 “提升材料性能(强度)+ 节约能源”。
- 选项拆解与排除:
- A. It reduces the cost of titanium alloy raw materials:原文仅提及 “提升强度、细化晶粒、降低能耗”,未涉及 “原料成本”,属于 “无中生有”,排除;
- B. It improves titanium alloy performance and saves energy:“improves performance” 对应原文 “increasing the tensile strength by 35%”,“saves energy” 对应 “reducing energy consumption by 40%”,是原文信息的精准同义转换,符合题意;
- C. It eliminates the need for subsequent heat treatment:原文明确提到 “subsequent aging at 500℃”(后续时效处理),“无需热处理” 与原文矛盾,排除;
- D. It simplifies the titanium alloy forming process:原文未提及 “简化成型步骤”,仅强调 “改进工艺效果”,属于 “偷换话题”,排除。
- 备考拓展:科技类阅读文本常涉及金属材料前沿(如钛合金、高温合金、金属基复合材料),解题时需掌握 “学术名词定位法”,快速锁定工艺名称、数据指标(如强度提升比例、能耗降低幅度)等关键信息。建议平时关注中国科学院金属研究所官网 “科研进展” 栏目及《金属学报》期刊,提升专业文本理解速度。
- 考点定位:本题考查复杂句翻译、金属材料术语转化及逻辑关系传递,核心是 “准确还原金属基复合材料领域的学术内涵”,属于翻译题 “学术性 + 准确性” 的典型题型,占翻译部分总分值的 20%(3/15 分)。
- 句式拆解与翻译技巧:
- 主干结构:“The development... is not only crucial for... but also plays a vital role in...”(…… 的发展不仅对…… 至关重要,还在…… 中发挥关键作用)。翻译时保留 “不仅…… 还……” 的递进逻辑,符合中文学术表达习惯;
- 专业术语:“advanced metal matrix composites” 译为 “先进金属基复合材料”(金属材料领域标准术语),“lightweight and energy-saving transformation” 译为 “轻量化与节能转型”(制造业核心概念),确保术语无歧义;
- 定语结构:“of improving the performance of key components in aerospace and automotive industries”(提升航空航天和汽车工业关键部件性能的)、“of promoting the lightweight and energy-saving transformation of manufacturing”(推动制造业轻量化与节能转型的),采用 “前置定语” 译法,避免英文式长句堆砌,保证中文流畅度。
- 评分标准对照(95 分水准):
- 学术忠实:完全传递 “金属基复合材料发展的双重价值(部件性能提升 + 制造业转型推动)”,无术语错译或语义增减;
- 语言流畅:句式拆分合理,“至关重要”“关键作用” 等表达符合中文学术书面语规范;
- 逻辑清晰:递进关系(不仅…… 还……)传递明确,定语修饰关系清晰,符合学术文本严谨性要求。
- 备考拓展:金属材料类翻译需重点关注 “交叉学科术语”(如 “轻量化” 涉及材料学与机械工程),建议结合《金属基复合材料》《先进材料导论》积累术语译法,同时练习 “长定语拆分技巧”,平衡学术性与可读性。
Advanced processing technologies have become the core driving force for the high-quality development of the metal materials industry, as they solve key bottlenecks in traditional manufacturing—from high energy consumption to poor performance—and enable the production of high-value-added metal products. This is particularly evident in the research of the Chinese Academy of Sciences Institute of Metal Research, where technological breakthroughs have continuously pushed the industry forward.
In performance improvement, advanced processes enhance material properties to meet high-end demands. For example, the "cryogenic rolling + aging" technology developed by CAS metal researchers reduces titanium alloy grain size to 2 μm (from 50 μm in traditional methods) and increases tensile strength by 35%, making titanium alloys suitable for lightweight aerospace components. This solves the problem of traditional hot working that easily causes material defects, promoting the application of metals in high-tech fields.
In green development, advanced technologies drive energy-saving and emission reduction. The "near-net shape forging" process for high-temperature alloys reduces material waste from 30% (traditional forging) to 5% and cuts energy consumption by 25%. This not only lowers production costs but also aligns with the global "carbon neutrality" goal, promoting the sustainable development of the metal industry.
In conclusion, advanced processing technologies promote the metal materials industry by improving product performance and enabling green manufacturing. For institutions like the CAS Institute of Metal Research, continuing to innovate processing technologies will be crucial to supporting the development of national strategic industries such as aerospace and new energy.
- 考点定位:本题考查议论文 “学术视角 + 实证支撑 + 逻辑严谨性”,核心是 “结合金属材料科研实际论证先进加工技术的价值”,属于考博写作 “科技与产业发展” 热点话题,占写作部分总分值的 100%(20/20 分)。
- 高分亮点拆解:
- 专业贴合度高:紧密结合中国科学院金属研究所研究方向,引用 “深冷轧制 + 时效”“近净形锻造” 等真实工艺案例,融入具体数据(如强度提升 35%、能耗降低 25%),体现对金属加工领域的深度认知;
- 逻辑结构清晰:采用 “总 - 分 - 总” 框架 —— 开头点明先进加工技术的 “核心驱动作用”,中间分 “性能提升”“绿色发展” 两大分论点,结尾回归国家战略需求,层次分明;
- 语言学术规范:运用 “high-value-added 高附加值”“near-net shape forging 近净形锻造”“carbon neutrality 碳中和” 等学术词汇,句式包含定语从句、举例说明等复杂结构,符合博士研究生表达水平;
- 论据权威充分:引用中科院金属研究所科研成果,满足 “specific examples” 要求,增强论证可信度。
- 备考拓展:考博写作需提前储备 “金属材料热点素材”(如先进加工工艺、高性能合金、金属基复合材料),可通过所内顶刊论文(如《Acta Materialia》《金属学报》)积累案例。写作时遵循 “观点 + 数据 + 产业价值” 公式,突出 “技术突破 - 问题解决 - 行业影响” 的逻辑链。
中国科学院金属研究所考博真题(英语 2005-2025 年、专业课含《金属学与热处理》《材料力学》《金属腐蚀与防护》等)及高分答案详解,可通过以下渠道获取:
- 考博信息网(http://www.kaoboinfo.com/):汇聚全国高校考博资源,提供中科院各研究所专项真题、备考指南及导师信息,支持按学科分类检索,是金属材料领域考博首选平台;
- 中国科学院金属研究所历年考博真题下载专用页面(http://www.kaoboinfo.com/shijuan/school/408061_1_1311376.html):本校专属真题库,配套解析由考博命题专家与金属材料教授联合编写,覆盖金属加工、腐蚀防护等核心专业方向,精准匹配 95 分以上备考需求。
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基础阶段(考前 12-9 个月):
- 英语:精读 2008-2015 年真题,积累金属材料学术词汇(如 “alloy 合金”“heat treatment 热处理”“tensile strength 抗拉强度”),重点突破词汇与长难句;
- 专业课:研读指定教材(如《金属学与热处理》崔忠圻版、《材料科学基础》胡赓祥版),构建专业知识框架,结合真题了解命题侧重。
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强化阶段(考前 8-4 个月):
- 英语:专项突破薄弱题型(如翻译、阅读科技文本),结合答案详解复盘错题,总结 “学术文本解题技巧”;
- 专业课:聚焦论述题与实验设计题,融入 “绿色制造”“高性能材料” 等前沿视角,练习 “专业术语的英语表达”。
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冲刺阶段(考前 3-1 个月):
- 模考训练:使用 2016-2025 年真题整套模拟,严格把控时间(英语 3 小时、专业课 3 小时),提升答题速度与准确率;
- 热点积累:研读中科院金属研究所近年顶刊论文,提炼科研热点(如 “极端环境金属材料”“金属 3D 打印”)融入写作,增强学术竞争力。
中国科学院金属研究所注重 “科研创新与工程实践能力”,备考时需:
- 关注所内重点实验室(如金属腐蚀与防护国家重点实验室、高性能均质合金国家工程研究中心)的研究方向,将前沿动态(如 “金属基复合材料制备”“耐蚀合金开发”)融入答题;
- 练习 “专业英语写作”,掌握金属材料领域学术论文的基本逻辑(如 “工艺 - 性能 - 应用”),避免口语化表达,提升学术文本撰写能力。
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