發(fā)布時(shí)間：2018-04-01 05:26

  本文選題：Mg-Zn-Ca非晶合金　切入點(diǎn)：非晶復(fù)合材料　出處：《西安工業(yè)大學(xué)》2017年碩士論文

【摘要】：相較于其他生物植入材料,鎂及其合金在密度、強(qiáng)度、彈性模量等方面存在著無(wú)可比擬的優(yōu)勢(shì)。近年來(lái),將其作為可降解金屬植入材料引起了人們的廣泛關(guān)注。然而,鎂及鎂合金的生物應(yīng)用由于腐蝕降解過(guò)快而受到限制。已有研究結(jié)果表明,Mg-Zn-Ca系列非晶合金具有良好的生物相容性、優(yōu)異的力學(xué)性能和耐蝕性,作為可降解生物醫(yī)用材料具有潛在的臨床應(yīng)用價(jià)值。目前,Mg-Zn-Ca系合金非晶形成能力和腐蝕降解行為方面的研究還較少。本文以Mg_(65)Zn_(30)Ca_5合金為研究對(duì)象,采用熔體旋淬法和銅模噴鑄法制備了薄帶狀和棒狀試樣,通過(guò)XRD、SEM、DSC、電化學(xué)測(cè)試和壓縮實(shí)驗(yàn)來(lái)研究了合金化元素Mn、Sr、Sn對(duì)Mg-Zn-Ca合金非晶形成能力、腐蝕和壓縮性能的影響規(guī)律,取得以下結(jié)果:(1)Mn元素的影響。利用熔融紡絲法和噴鑄法制備的Mg_(65)Zn_(30)Ca_5帶材和2mm棒材試樣均為完全非晶結(jié)構(gòu);添加不同含量的Mn元素時(shí),帶材試樣依然為非晶結(jié)構(gòu),而2mm棒材試樣組織中逐漸析出了Mg相、Mn相、MgZn相,表明添加Mn元素?fù)p害了Mg_(65)Zn_(30)Ca_5的非晶形成能力。2mm棒材試樣電化學(xué)測(cè)試和浸泡實(shí)驗(yàn)結(jié)果表明,處于完全非晶態(tài)的Mg_(65)Zn_(30)Ca_5合金耐蝕性最好,Mn元素添加量小于0.2at%時(shí)合金的耐蝕性影響不大。而當(dāng)摻雜Mn元素含量大于0.2at%時(shí),合金的耐蝕性隨Mn添加量增加明顯下降。壓縮力學(xué)實(shí)驗(yàn)結(jié)果表明Mg_(65)Zn_(30)Ca_5的強(qiáng)度最高,為531.8MPa,加入Mn元素后使得合金的強(qiáng)度逐漸下降。(2)Sr元素的影響。在Mg_(65)Zn_(30)Ca_5合金中加入Sr元素,合金的非晶形成能力先隨Sr加入量的增加不斷提高,當(dāng)Sr添加量為1at%時(shí),合金具有最大的非晶形成能力。繼續(xù)增加Sr元素的添加量,合金的非晶形成能力反而減弱。2mm和4mm棒材試樣的電化學(xué)和浸泡實(shí)驗(yàn)結(jié)果表明,含Sr試樣的耐蝕性均優(yōu)于不含Sr的Mg_(65)Zn_(30)Ca_5試樣,即加入Sr元素提高了合金的耐蝕性。力學(xué)實(shí)驗(yàn)測(cè)試表明摻雜0.5at%、1.0at%、1.5at%的Sr元素后,合金的壓縮強(qiáng)度分別提高了4.07%、7.06%、1.57%,但塑性基本不變。(3)Sn元素的影響。不同Sn含量的薄帶試樣均為完全非晶態(tài),而2mm棒材試樣的組織結(jié)構(gòu)由不含Sn的完全非晶態(tài)逐漸轉(zhuǎn)變?yōu)橛蒑g相和Mg2Sn相組成的晶態(tài),且析出晶體相的體積分?jǐn)?shù)和尺寸隨著Sn含量的增加而增大,說(shuō)明摻雜Sn元素降低了Mg-Zn-Ca合金的非晶形成能力。電化學(xué)測(cè)試和力學(xué)性能測(cè)試結(jié)果表明,隨著Sn元素加入量的增加,合金的耐蝕性和壓縮性能逐漸下降。
[Abstract]:Compared with other biological implants, magnesium and its alloys have unparalleled advantages in density, strength, elastic modulus and so on. In recent years, magnesium and its alloys have attracted much attention as biodegradable metal implants. The bioapplications of magnesium and magnesium alloys are limited by the rapid corrosion degradation. The results show that the Mg-Zn-Ca series amorphous alloys have good biocompatibility, excellent mechanical properties and corrosion resistance. As a biodegradable biomedical material, it has potential clinical application value. At present, there are few studies on amorphous forming ability and corrosion degradation behavior of Mg-Zn-Ca alloy. In this paper, Mg_(65)Zn_(30)Ca_5 alloy is taken as the research object. The thin strip and rod specimens were prepared by melt spinning and copper die spray casting. The effects of alloying element Mn-Sr-Sn on the amorphous forming ability, corrosion and compression properties of Mg-Zn-Ca alloy were studied by means of electrochemical test and compression test. The following results were obtained: the samples of Mg_(65)Zn_(30)Ca_5 strip and 2mm bar prepared by melt spinning method and spray casting method were all completely amorphous, and when different contents of mn element were added, the sample of Mg_(65)Zn_(30)Ca_5 strip was still amorphous structure. However, mg phase, mn phase and mg Zn phase were gradually precipitated in the microstructure of 2mm bar, which indicated that the addition of mn element damaged the amorphous forming ability of Mg_(65)Zn_(30)Ca_5. The corrosion resistance of Mg_(65)Zn_(30)Ca_5 alloy in completely amorphous state is the best when the content of mn element is less than 0.2 at%. The corrosion resistance of Mg_(65)Zn_(30)Ca_5 alloy with doping mn content greater than 0.2 at% has little effect on the corrosion resistance of the alloy. The corrosion resistance of the alloy decreased obviously with the increase of mn content. The compressive mechanical test results showed that the strength of Mg_(65)Zn_(30)Ca_5 was the highest (531.8 MPA). The strength of the alloy decreased gradually after adding mn element. The effect of Sr element on the strength of the alloy was observed. Sr element was added to the Mg_(65)Zn_(30)Ca_5 alloy. The amorphous forming ability of the alloy first increases with the increase of Sr content. When the Sr content is 1 at%, the alloy has the largest amorphous forming ability. On the contrary, the amorphous forming ability of the alloy was weakened. The electrochemical and immersion tests of the specimens of 0.2mm and 4mm bars showed that the corrosion resistance of the samples containing Sr was better than that of the samples without Sr, and the corrosion resistance of the specimens containing Sr was better than that of the samples without Sr. That is, the corrosion resistance of the alloy was improved by adding Sr element. The compressive strength of the alloy was increased by 4.07 and 7.06, respectively, but the plasticity of the alloy was almost unchanged. The thin strip samples with different Sn contents were completely amorphous. However, the microstructure of 2mm bars was gradually changed from a completely amorphous state without Sn to a crystalline state composed of mg phase and Mg2Sn phase, and the volume fraction and size of precipitated crystal phase increased with the increase of Sn content. The results of electrochemical and mechanical properties tests show that the corrosion resistance and compressibility of Mg-Zn-Ca alloy decrease with the increase of Sn content.
【學(xué)位授予單位】：西安工業(yè)大學(xué)
【學(xué)位級(jí)別】：碩士
【學(xué)位授予年份】：2017
【分類(lèi)號(hào)】：TG139.8

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