TH71822B - Poly-lactic acid molded articles with vapor deposition film And the method of producing the same thing - Google Patents

Abstract

DC60 (17/11/14) Poly-lactic acid molded articles It consists of poly-lactic acid base material 1 and hydrocarbon film 3 vapor deposition on the substrate surface by The CVD plasma method, where poly-lactic acid 1 base material shows the peak of Clear X-ray diffraction Where half the width of the peak that appears in the measurement The wide-angle X-rays of 10 degrees -25 degrees are not greater than 1.22 degrees, and hydrocarbon film 3 is vaporized on the surface of the poly-lactic acid base material 1, and includes two layers. Of a layer with CH2 high, 3a with a ratio of CH2 to total number of CH, CH2 and CH3 was not less than 40%, and a layer with low CH2 3b was formed on a layer with a high CH2, 3a and with a ratio of CH2 per total number of CH, CH2 and CH3 is not less than 35% Poly-lactic acid contains a vapor deposition hydrocarbon film on the base material of Poly-lactic acid It maintains a very close adhesion throughout the continuous phase of the CVD plasma without the need for a total transformation of the reaction gas. And without thermal deformation or thermal degradation of the poly-lactic acid base material.

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: Amendment 2 Oct. 2019 No disclaimers. -------------------------------------------------- ------------------------ Page 1 of Number 3 pages. 1. Molded articles of poly-lactic acid. It consists of poly-lactic acid base material and vapor deposition hydrocarbon film on the substrate surface by the CVD plasma method, where poly-lactic acid base material This indicates the apparent X-ray diffraction peak, where half the width of the measured diffraction peak over a range of 20 = 10 degrees to 25 degrees in the radiometric measurements. Wide-angle X with a Cu-K radiation source (X (30 kV, 100 mA) is not greater than 1.22 ?,, and such hydrocarbon films are vaporized on the surface of the base material of Poly-lactic acid, and will include two layers of a high CH2 layer with a ratio of CH2 to the total number of CH, CH2 and CH2, being not less than 40% and a low-CH2 layer at Was built on such a high CH2 layer and whose ratio of CH2 to the total number of CH, CH2 and CH3 was not more than 35%. 2. Poly-lactic acid molded objects according to claim 1, where the ratio of CH2 in such a high CH2 class is in the range of not less than 44% but less than 60%. 3. Poly-lactic acid-1 molded objects are aligned according to claim 1, where the thickness of the layer has Such high CH2 is within the range of 5 to 15 nm, and layer thickness with such low CH2 ranges from 15 to 100 nm. 4. Poly-lactic acid molded object according to claim 1, where the molded item is a bottle. 5. Methods of production of molded articles of poly-lactic acid with vapor deposition film, which consists of the process of feeding, as a gas of reaction, gas of Page 2 of the number 3 p. At least one type of selective hydrocarbon from aliphatic hydrocarbons. Unsaturated And aromatic hydrocarbons, and film vapor deposition. Hydrocarbons on the surface of the poly-lactic-enhanced extrusion material by the CVD plasma, where such stretch-forming objects of the poly-lactic acid exhibit the radiation peaks. Clear x Where the amplitude of the diffraction peak was measured over a range of 20 = 10 degrees to 25 degrees, in a wide-angle X-ray measurement with a Cu-Ka radiation source (30 kV , 100 mA) shall not be greater than 1.22?, And in the process of vapor deposition of such hydrocarbon films, plasma practice is performed with minimal output at the initial stage of the Made up of film for Built into a high CH2 layer with a ratio of CH2 to the total number of CH, CH2 and CH3 is not less than 40% and, later, the plasma practice is performed with the output. As much to create is a layer with CH2 buds with a fraction of CH2 over the total number of CH, CH2, and CH3 were not more than 35%. And a large output is performed with an output of 350 to 600 watts, while a plasma discharge with a large output is performed. By using a microwave, and a plasma practice with a low output is performed with an output of 350 to 600 watts while a plasma practice with a large output is performed. With an output of 1000 to 1400 watts. 6. Methods of manufacturing according to claim No. 5, where plasma operations with output That is as low as 0.9 to 3.0 seconds while the plasma discharges with the output. This will be executed for 0.4 to 2.7 seconds. 7. Manufacturing method according to claim 5, where an induced output of not less than 650 watts is applied prior to the execution of the plasma practice with an output of at least P.3. Of 3 pages 8. Method of production according to claim 5, where the reaction gas is The same elements are fed throughout the plasma practice with low output and plasma practice with large output. 9. Methods of production according to claim 5, where gas flow characteristics of The reaction is virtually unchanged throughout the plasma practice with low output and plasma practice with large output.