Influence of High Temperature Stress on Net Photosynthesis, Dry Matter Partitioning and Rice Grain Yield at Flowering and Grain Filling Stages

Climate change is recognized to increase the frequency and severity of extreme temperature events. At flowering and grain filling stages, risk of high temperature stress （HTS） on rice might increase, and lead to declining grain yields. A regulated cabinet experiment was carried out to investigate effects of high temperature stress on rice growth at flowering and grain- filling stages. Results showed that no obvious decrease pattern in net photosynthesis appeared along with the temperature rising, but the dry matter allocation in leaf, leaf sheath, culm, and panicle all changed. Dry weight of panicle decreased, and ratio of straw to total above ground crop dry weight increased 6-34% from CK, which might have great effects on carbon cycling and green house gas emission. Grain yield decreased significantly across all treatments on average from 15 to 73%. Occurrence of HTS at flowering stage showed more serious influence on grain yield than at grain filling stage. High temperature stress showed negative effects on harvest index. It might be helpful to provide valuable information for crop simulation models to capture the effects of high temperature stress on rice, and evaluate the high temperature risk.

Deterioration of Dry Skin in Arthritis Model Mice via Stress-Induced Changes in Immune Cells in the Thymus and Spleen

Objective: Skin dryness is a characteristic of rheumatoid arthritis model mice. A previous study reported that the stress hormone glucocorticoid (i.e., corticosterone) is related to the induction of dry skin in arthritic mice. However, the mechanism through which stress induces dry skin in these mice is still unclear. Therefore, in this study, we examined the relationship between stress and induction of dry skin in arthritic mice. Methods: Physical stress load in mice with DBA/1JJmsSlc collagen-induced arthritis was treated with water immersion stress, and transepidermal water loss and the expression of markers associated with allergic reactions and inflammation was evaluated. Results: Deterioration of skin dryness was observed in stressed arthritic mice compared with that in unstressed arthritic mice. Moreover, plasma levels of interleukin-6 and corticosterone were increased in stressed arthritic mice compared with those in unstressed arthritic mice. We also observed decreased regulatory T cell numbers and increased T helper type 2 cell numbers in the thymus of stressed arthritic mice compared with those in unstressed arthritic mice. Conclusion: These results suggested that abnormalities in the immune system were related to deterioration of dry skin in stressed arthritic mice. Thus, reduction of stress may prevent deterioration of dry skin in mice with arthritis.

Weakened carbon and nitrogen metabolisms under post-silking heat stress reduce the yield and dry matter accumulation in waxy maize

Post-silking high temperature is one of the abiotic factors that affects waxy maize(Zea mays L. sinensis Kulesh) growth in southern China. We conducted a pot trial in 2016–2017 to study the effects of post-silking daytime heat stress(35°C) on the activities of enzymes involved in leaf carbon and nitrogen metabolisms and leaf reactive oxygen species(ROS) and water contents. This study could improve our understanding on dry matter accumulation and translocation and grain yield production. Results indicated that decreased grain number and weight under heat stress led to yield loss, which decreased by 20.8 and 20.0% in 2016 and 2017, respectively. High temperature reduced post-silking dry matter accumulation(16.1 and 29.5% in 2016 and 2017, respectively) and promoted translocation of pre-silking photoassimilates stored in vegetative organs, especially in leaf. The lower leaf water content and chlorophyll SPAD value, and higher ROS(H2O2 and O2^-·) content under heat stress conditions indicated accelerated senescent rate. The weak activities of phosphoenolpyruvate carboxylase(PEPCase), Ribulose-1,5-bisphosphate carboxylase(Ru BPCase), nitrate reductase(NR), and glutamine synthase(GS) indicated that leaf carbon and nitrogen metabolisms were suppressed when the plants suffered from a high temperature during grain filling. Correlation analysis results indicated that the reduced grain yield was mainly caused by the decreased leaf water content, weakened NR activity, and increased H2O2 content. The increased accumulation of grain weight and post-silking dry matter and the reduced translocation amount in leaf was mainly due to the increased chlorophyll SPAD value and NR activity. Reduced PEPCase and Ru BPCase activities did not affect dry matter accumulation and translocation and grain yield. In conclusion, post-silking heat stress down-regulated the leaf NR and GS activities, increased the leafwater loss rate, increased ROS generation, and induced pre-silking carbohydrate translocation. However, it reduced the post-silking direct photoassimilate deposition, ultimately, leading to grain yield loss.

干旱地区水盐胁迫对水稻产量构成及稻谷品质的影响研究

针对宁夏引黄灌区传统稻田蒸发量大,盐渍化耕地占地面积广、改良问题难,土地生产力下降等问题。采用水稻滴灌旱作方式,以富源4号(96D10)作为研究对象,通过设置不同土壤水分水平(W1:高100%、W2:中80%及W3:低60%田间持水率)及盐分水平(S1:轻1.2 g/kg、S2:中3.1 g/kg及S3:重5.3 g/kg),探究不同水盐胁迫对水稻产量构成及稻谷品质的影响规律。结果表明,水盐胁迫对水稻产量及品质具有较为显著的影响,其中产量构成因素中,千粒重W3S3较W1S1下降15.89%(2021年)和15.58%(2022年),饱籽率W3S3较W1S1显著下降3.45%(2021年)和4.05%(2022年),单位产量W3S3较W1S1显著下降56.48%(2021年)和63.09%(2022年);品质方面整精米率W3S3较W1S1显著下降12.65%(2021)和13.56%(2022),垩白米率W3S3较W1S1显著上升164.71%(2021)和122.73%(2022),直链淀粉含量W3S3较W1S1显著下降5.97%(2021)和8.99%(2022),蛋白质含量W3S3较W1S1显著上升53.51%(2021)和61.82%(2022)。综合考虑,在节水目标下,采用滴灌旱作方式种植水稻,保持80%田间持水率加轻、中度盐碱化(≤4.0 g/kg)的土壤环境,可以保持较为接近充分灌溉条件下的产量构成水平和较好的稻谷品质水平。该结论可为宁夏引黄灌区盐碱地可持续利用及水稻的节水灌溉适应性研究提供理论依据。

马头营干热岩开采试验场地人工注水诱发地震探讨

结合马头营干热岩区7个临时测震台站的地震观测资料和M1井2022-06~09的加压注水数据,研究地震活动与注水压力、水流量的关系,同时分析诱发地震震源机制解及其对周边应力场的影响。结果表明,注水作业可能诱发了201个地震,震源深度主要集中在0~4 km,这个区段也是地围压较小的安全区域,发生中强震的几率较小;水流量、水压力的改变不仅影响诱发地震的时空分布特征,而且影响地震活动频度,应力积累到一定水平诱发地震发生,之后水流量、水压力与地震频度呈现正相关关系;注水量和震级之间关系不明显,压力和诱发地震震级呈线性相关;在持续注水量达到11 821 m^(3)、压力达到23.46 MPa时,有断层失稳、诱发地震的可能;最大诱发地震的震源机制解为走滑型,主压应力NNW向,与华北区域应力分布有一定偏差,可见M1井开采对局部应力分布有影响;从地震震中位置迁移规律推测,有新的地裂缝产生。

Chloride Resistance of Concrete under Complex Stress and Environment

The presence of stress is shown to have a significant impact on chloride ions in concrete. Reinforced concrete is usually durable and cost-effective which has resulted in its widespread use for construction, however, the concrete subjected to environment and load has become increasingly apparently that attacked by aggressive agents such as chloride ion. In this study, the coupling influences are stress effects and environmental problems on the coastline concrete durability have been investigated. A series of cyclic of a wet-dry cycle and submersion tests were performed onto the stressed concrete to obtain an understanding of the physical mechanisms causing the accumulation of chlorides in the interior pores of concrete under different stress types and exposure environments, based on the same duration. Specimens were prepared and subjected to NaCl solution in a wet-dry cycle and submersion, the chloride in the tension zone is gradual with increasing the stress level, as well as the chloride ion in the wet-dry cycle, is increasing the number of cycles. The apparent diffusion coefficient of each specimen was calculated respectively, the profile of concentration at a different section of tension and compression zones were presented in influence factors of the number of cycles, the length of drying phase, and periodic wetting cycles with sodium solution was discussed. After employed Fick’s second law, the results suggested Da in a wet-dry cycle is much higher than the Da in submersion zones.

授粉期高温胁迫对夏玉米植株形态、叶片光合及产量的影响

针对黄淮海地区花期高温影响夏玉米安全生产的问题,本研究以热敏感型品种‘先玉335’为试验材料,以大田常温为对照(CK),设置授粉期高温处理(HT),研究授粉期高温胁迫对夏玉米植株形态、叶片光合特性、干物质积累与分配及产量形成的影响。结果表明:2021年和2022年,HT处理的冠层最高温度超过40℃的天数分别为7 d和8 d,高温处理期间冠层最高温度分别较CK高1.7~6.8℃和1.5~4.6℃。HT处理显著提高了夏玉米株高和穗位高,对茎粗和叶面积无显著影响,但延缓了生育后期叶片衰老,2021年和2022年成熟期的叶面积较CK分别显著提高34.69%和163.72%。高温处理期间,HT处理的玉米叶片气孔导度、蒸腾速率和胞间CO_(2)浓度显著升高(P<0.05,P<0.01),叶片羧化效率、气孔限制值和水分利用效率显著降低(P<0.05,P<0.01);叶片净光合速率随处理温度而变化,处理温度过高(一般>40℃时)则显著降低(P<0.05),反之则显著升高(P<0.05)或无显著变化,叶片整体光合性能下降。高温胁迫解除后,HT处理的叶片光合性能相关参数逐渐与CK趋于一致。经授粉期高温胁迫处理后,玉米茎秆、叶片、苞叶、穗轴和单株干重降低,其中穗轴干重降幅最大,而雄穗和花丝干重增加,使得干物质向茎秆、叶片、雄穗、花丝等部位的分配比例增加,而向穗轴的分配比例显著减少(P<0.05)。至成熟期,HT处理造成玉米籽粒和单株干重显著减少48.32%和16.71%(P<0.05),而玉米茎秆和叶片干重显著增加35.01%和9.48%(P<0.05)。HT处理的结实率和穗粒数分别显著下降54.43%和53.19%(P<0.05),百粒重显著提高10.13%(P<0.05),但籽粒产量显著降低46.82%(P<0.05)。综上,授粉期高温胁迫增强了玉米叶片气孔蒸腾,增加了胞间CO_(2)浓度,降低了叶片羧化效率和水分利用效率,导致植株整体光合性能下降,制约了光合同化物积累及向穗部的转移分配,导致结实率显著下降,穗粒数显著减少,制约了花后光合同化物从“源”(茎秆和叶片)向“库”(籽粒)的转运,最终导致籽粒产量大幅下降。

基于X-rayμCT技术的玉米干燥损伤定量研究

应力裂纹是玉米干燥损伤的主要形式,一些微裂纹无法肉眼观察但影响玉米的机械强度、发芽率以及活力等。为此,利用X-rayμCT技术对不同干燥条件下玉米进行扫描,使用深度学习算法分割与胚乳密度相近的胚区域并结合软件对玉米内部物性特征参数进行提取,提出了一种新的玉米内部损伤定量评价方法。结合定量研究结果提出的玉米干燥损伤模型,可为玉米损伤预测提供新思路。

PEG干旱胁迫下甜高粱生理响应与抗旱性比较

本研究旨在探讨不同甜高粱品系在受到干旱胁迫时生理生态响应机制,并筛选出具有优良抗旱性的甜高粱恢复系。实验设计了4个不同浓度的PEG-6000水溶液:50、100、150、200 g/L,并以清水处理作为对照组,通过测量各处理组的发芽率、发芽势、胚芽长、胚根长、芽干重、根干重、干物质转运率等指标,评估了不同甜高粱品系的抗旱性能。研究结果显示,随着PEG浓度的增加发芽率、发芽势、胚根长、胚芽长、芽干重、根干重、干物质运转率整体均呈下降趋势,不同处理下品种2和品种7发芽势表现最好,浓度小于200 g/L处理下发芽势均未出现显著下降,在浓度达到200 g/L分别较对照下降11.5%、17.8%;品种7发芽率表现最好,20%的PEG浓度处理下较对照下降最少(5.6%);品种6胚根长表现最好,150 g/L处理下,胚根长较对照增长7.1%;品种3和品种4胚芽长表现最好,在100 g/L和150 g/L处理下胚芽长均是较对照降低最少。品种2干物质运转率表现最好,所有处理均较对照下降最少。可见不同甜高粱品系应对干旱胁迫的响应机制各有不同。综合分析表明,不同的甜高粱品系对干旱胁迫的适应机制存在差异。通过隶属函数进行综合评价,得出8个甜高粱品系的抗旱性排序为:品种3>品种7>品种4>品种6>品种2>品种5>品种8>品种1。这一结果为甜高粱的抗旱育种提供了重要的理论依据。

氧化应激及天然食物中的抗氧化剂在干眼中的作用研究进展

干眼是以泪膜不稳定、眼部不适为特征的年龄相关性疾病,其发病与年龄、环境等多种因素密切相关。研究表明,氧化应激在干眼的发病过程中起关键作用。本文主要就氧化应激通过激活自噬、炎症和衰老等诱导干眼发生的机制以及天然食物中抗氧化剂对于改善眼表氧化应激状态、治疗干眼方面的应用进展进行综述。

核桃楸木材的自由干缩特性

木材在干燥过程中因失水而导致干缩,非均匀干缩会产生应力限制木材的自由干缩。以核桃楸为试验对象,研究了5 mm厚(纤维方向)分层试件和未分层(整体)试片的自由干缩特性,并对比研究了受限干燥后木材的分层自由干缩特性。研究结果表明:室温下各层自由干缩系数和绝干干缩率存在显著差异,总体呈现表层向芯层递减的趋势,第1层自由干缩系数(0.254)最大,第7层自由干缩系数(0.165)最小。树皮侧木材的自由干缩系数大于髓心侧。整体自由干缩试件常温干燥过程存在由含水率梯度引起的应力,限制其自由干缩,其弦向干缩率比分层自由干缩试件小0.50%。泡水和汽蒸无法使受限干缩木材的塑性变形完全恢复,利用这种方法测量木材的自由干缩应变不准确。室温下弦向各层自由干缩的干缩率-含水率回归方程的决定系数(R^(2))均高于0.96,利用该方程可以准确计算各含水率点的木材自由干缩应变。

干砂地基初始应力对爆炸波传播影响的模型试验

为了研究砂土地基初始应力对爆炸波压力峰值、上升时间、传播速度和初始应力动态卸载等传播规律的影响,开展多组干砂地基常重力和超重力爆炸模型试验.试验结果表明,初始自重应力会抑制爆炸波近区压力峰值的增长,而对远区的影响较小.初始应力的增加使得爆炸波上升时间更长,更易由冲击波衰减为弹塑性波,并使得爆炸波波速增大.超重力试验通过还原砂土地基的原型自重应力,能够模拟爆炸荷载诱发砂土地基初始应力动态卸载的过程,形成爆炸压力和土体初始应力动态卸载拉应力的耦合波,动态卸载拉应力持续时间更长.与爆炸波压应力的比冲量相比,初始应力动态卸载拉应力的比冲量随着传播距离的增加逐渐成为爆炸能量的主要部分,其产生的破坏作用不可忽视.

X80钢在干湿交替阴极电位下的应力腐蚀行为

通过电化学和慢应变速率拉伸试验,研究了X80钢在干湿交替海洋环境中不同阴极电位下的应力腐蚀开裂(SCC)机理。结果表明:-850 mV电位降低了钢的腐蚀电流密度,电流密度随外加电位的减小而增大,由于应变的作用,阴极保护效果逐渐降低。与不加电位相比,钢在-850 mV电位下的SCC敏感性降低了14.28%,而在-1200 mV电位下的敏感性提高了71.42%,从韧性断裂转变为脆性断裂。外加电位的保护作用是通过抑制钢的阳极溶解来实现的,随着电位的降低,引发剧烈的析氢反应,导致SCC敏感性升高。

干旱及复水对冬小麦产量和干物质积累与分配的影响

为了探究干旱及复水条件下,冬小麦各器官干物质积累与分配的变化规律,及对产量的影响,以‘济麦22’为研究对象,在拔节期(4月2日)按照正常补水量(75 mm)的100%(CK)、80%(T_(1))、50%(T_(2))、25%(T_(3))和0%(T_(4))一次性灌溉,并在开花期(4月26日)统一复水至土壤相对湿度达90%,测定2个生育期植株各器官干物质量和总干物质量,以及各处理的最终产量。结果表明,拔节期干旱胁迫会使冬小麦叶的干物质分配比降低,茎和穗的干物质分配比升高,叶鞘的干物质分配比变化不大,复水后各器官干物质分配比均能恢复到与对照一致的水平;开花后期植株的穗干物质重和干物质总重降低,T_(1)、T_(2)、T_(3)、T_(4)处理的冬小麦总干物质重相较于CK下降11.3%、16.0%、24.2%、35.0%,穗干物质重下降15.7%、20.0%、26.6%、32.0%;叶的花前干物质转运量和转运率显著降低,叶鞘和茎的花前转运率显著升高;T_(1)、T_(2)、T_(3)、T_(4)处理的冬小麦产量相较于对照分别下降16.2%、24.4%、29.4%、33.0%,穗粒数分别下降9.9%、11.6%、20.0%、23.3%,不孕穗率分别升高6.2、7.5、9.6、8.1个百分点,对千粒重和小穗数影响不大。由此可知,拔节期干旱会导致干物质向茎和穗等储藏器官分配,复水后的总干物质重和穗干物质重显著降低,干旱胁迫程度越重,变化幅度越大;拔节期的干旱胁迫导致穗粒数减少,不孕穗率显著升高,产量显著下降。

外源L-谷氨酸对花后干旱胁迫下小麦干物质积累分配、籽粒灌浆特性及品质形成的调控效应

【目的】谷氨酸(Glu)具有调节植物生长,提高作物抗逆能力的功效。研究外源L-谷氨酸(L-Glu)对灌浆期干旱胁迫下小麦干物质积累分配及转运、光合参数、灌浆特性、农艺性状及品质特性的影响,为进一步研究谷氨酸提高小麦耐旱性奠定理论基础。【方法】以新疆主栽冬小麦品种新冬18号和新冬22号为试验材料,在抽穗期、开花期分别喷施0、2、4 mmol/L的L-Glu溶液,开花后进行大田干旱胁迫(DT)和适水处理(WT)。在开花初期和花后10、20、30天(即灌浆初期、中期、后期),测定了小麦干物质积累分配及转运、光合特性、灌浆特性、农艺性状及品质等相关指标。【结果】外源喷施L-Glu可以显著增加开花后干旱胁迫下地上部总干物质积累量,其中DT-G2、DT-G4处理显著高于DT-G0处理。与DT-G0处理相比,DT-G2和DT-G4处理有效提高了开花后干旱胁迫下干物质积累对籽粒干物质积累的贡献率,新冬18号小麦分别增加24.65%、24.28%,新冬22号小麦分别增加28.44%、16.03%;与DT-G0处理相比,DT-G2、DT-G4处理提高了灌浆期光合速率(P_(n))、气孔导度(G_(s))、蒸腾速率(T_(r))、叶肉瞬时羧化效率(P_(n)/C_(i))及籽粒灌浆平均速率,其中DT-G2、DT-G4处理下新冬18号小麦籽粒灌浆平均速率分别较DT-G0增加15.17%和3.59%,新冬22号小麦分别增加19.92%和14.70%;与DT-G0处理相比,DT-G2处理显著提高了2个小麦品种的千粒重,DT-G4处理显著降低了2个小麦品种的湿面筋含量。【结论】抽穗期、开花期喷施外源L-Glu可以显著增加开花后干旱胁迫下小麦地上部总干物质积累量,降低灌浆后期小麦干物质在营养器官的分配比例,同时提高开花后干旱胁迫下旗叶的光合速率及蒸腾速率,进而促进小麦穗部干物质的分配,提高小麦籽粒的灌浆速率,延长灌浆持续时间,最终在降低干旱胁迫下粒重损失的同时提高籽粒品质。

基于碾压应力的土石坝料压实质量控制方法

坝料压实质量是土石坝施工质量控制的关键内容。在长河坝填筑现场进行碾压应力测试,建立土应力与坝料干密度关系模型,得出对应压实密度标准的土应力控制值;构建Midas三维有限元分析模型,模拟坝料碾压过程中的应力动态变化,根据土应力控制值来判断坝料压实质量。研究结果表明:坝料土应力与干密度之间存在较强的线性关系,其线性模型平均决定系数为0.9;对应坝料干密度控制标准,反滤料1上层、中层、下层土体的应力控制值分别为1.465、1.064、0.773 MPa,反滤料3上层、中层、下层的土体应力控制值分别为0.926、0.774、0.664 MPa;运用构建的Midas模型实时监测碾压应力变化,可知反滤料1和反滤料3分别在振碾6遍和8遍后整体达到压实密度标准。

花生种子受低温胁迫后萌发幼苗生长及生理特性研究

花生收获期易受低温胁迫,为研究低温胁迫对不同成熟度花生种子萌发、幼苗生长和叶片生理特性的影响,以青花7号花生品种为材料,以十成熟(完熟)未受低温胁迫的种子为对照(CK),研究了九成熟2℃低温胁迫(T1)、九成熟-1℃低温胁迫(T2)、十成熟2℃低温胁迫(T3)和十成熟-1℃低温胁迫(T4)处理下种子萌发幼苗的最大光化学效率(Fv/Fm)、干物质积累和内源激素含量变化。结果表明:与CK相比,低温处理的种子萌发后幼苗Fv/Fm受到抑制,且种子成熟度越低,受低温胁迫的影响越明显;出苗后10~18 d,T1和T2处理幼苗地上部干物质重均显著低于CK,各低温处理下幼苗地下部干物质重与CK均无明显差异,但在22~26 d均显著高于CK;各处理下GA3、ZR、IAA和ABA含量随幼苗生长的变化趋势一致,但各取样时期的内源激素含量因胁迫温度和成熟度不同表现出明显差异,在出苗后10 d,T1-T4处理下萌发幼苗的(IAA+GA3+ZR)/ABA比值较CK分别降低12.82%、25.64%、25.64%和38.46%,而出苗后26 d,较CK分别提升47.62%、42.11%、60%和46.34%;温度对GA3、ZR、ABA和(IAA+GA3+ZR)/ABA比值影响极显著,对Fv/Fm值影响显著,成熟度对GA3和ZR影响极显著;(IAA+GA3+ZR)/ABA比值与幼苗干物质积累呈较强正相关,与根冠比和Fv/Fm呈现负相关。基于本研究,建议在低温冷害多发区,花生应在充分成熟后收获,以避免低温胁迫造成种子质量下降和幼苗生长受限。

夜间增温对灌浆期高温胁迫下小麦干物质及灌浆特性的影响

为了解灌浆期高温胁迫下小麦生产力对不同阶段夜间增温的反应,以对温度敏感性不同的两个小麦品种扬麦18(春性品种)和烟农19(半冬性品种)为试验材料,采用可移动塑料增温棚,于2021-2022年对小麦进行不同阶段夜间增温[分蘖期-拔节期增温(W T-J N)、拔节期-孕穗期增温(W J-B N)和孕穗期-开花期增温(W B-A N)]及灌浆期高温胁迫处理,比较分析了不同处理下小麦干物质积累及灌浆特性的差异。结果表明,W T-J N和W J-B N处理主要通过缩短小麦播种-开花的时长,延长灌浆期天数,增加花前干物质转运量、花后干物质积累量和花后干物质积累贡献率,进而提高了开花期和成熟期干物质积累量;促进了干物质在成熟期穗轴+颖壳和籽粒中的积累,降低了小麦茎鞘+叶片中的积累量,增产3.08%~7.62%。灌浆期高温胁迫显著降低了两个品种的产量,而与灌浆期高温胁迫处理(NH)相比,W T-J H和W J-B H处理增产1.21%~6.05%。与不增温处理(NN)相比,在W T-J N和W J-B N处理下两个小麦品种的灌浆期粒重及灌浆速率均提高,W B-A N和NH处理则降低了小麦灌浆参数。这说明分蘖期-拔节期和拔节期-孕穗期夜间增温可提高小麦开花期和成熟期的干物质积累量,促进小麦籽粒灌浆,缓解灌浆期高温胁迫对小麦生产力的不利影响,有助于小麦产量形成。

高速切削GH2132涂层刀具表面及次表面性能演变研究

高速切削过程中,涂层刀具表面性能及次表面残余应力的变化会直接影响刀具的切削性能。采用PVD-TiAlN硬质合金涂层刀具进行高速车削GH2132高温合金试验,研究刀具表面性能在切削过程中的变化规律,并用拉曼光谱法测量了刀具不同磨损阶段的涂层次表面残余应力分布。结果表明,刀具在完整寿命期间内,表面残余压应力和表面显微硬度均呈先增大后减小的趋势。刀具从未磨损到稳定磨损阶段中期,涂层截面残余应力均为残余压应力占主体且沿深度方向逐渐增大,但切削至稳定磨损阶段后期时,涂层在靠近基体位置出现残余压应力减小的现象。在稳定磨损阶段前期,刀具有最佳的表面性能及最大的次表面压应力,此时刀具切削性能最佳,刀具磨损缓慢。