| 产品名称: |
HH-WAX毛细管柱 GB/T 14190-2017 纤维级聚酯(PET)切片试验中乙醛测定 |
| 产品型号: |
HH-WAX毛细管柱 |
| 品牌: |
1941 |
| 产品数量: |
|
| 产品单价: |
面议 |
| 日期: |
2022-05-02 |
HH-WAX毛细管柱 GB/T 14190-2017 纤维级聚酯(PET)切片试验中乙醛测定的详细资料
GB/T 14190-2017 纤维级聚酯(PET)切片试验中乙醛测定
GB/T 14190-2017 纤维级聚酯(PET)切片试验中乙醛测定 详细信息:
名称:毛细管柱
固定液:聚乙二醇
规格:30m*0.32mm*0.25um
型号:PEG-20M
应用:GB/T 14190-2017 纤维级聚酯(PET)切片试验方法
乙醛含量是聚酯(PET)切片的重要指标之一,常规固相缩聚过程通常需要较长的时间将其值降低1 ppm以下以满足瓶用聚酯的要求。
浩瀚色谱(山东)应用技术开发有限公司通过粘度分析、顶空气相色谱、扫描电镜、示差量热扫描等对脱醛后聚酯产品的聚合度、乙醛含量、微观形貌和热性能等进行了表征。结果表明,当周期性更新时间为1h时,超临界C02辅助PET固相缩聚脱醛的较优工艺条件为脱醛温度230 ℃C,C02压力8 MPa,粒径0.30 mm-0.45 mm。在该工艺条件下,可在较短时间内制备获得聚合度接近150,乙醛含量低于1 ppm的聚酯聚合物。SEM分析表明,粒径越小,超临界CC02对PET基体的塑化和溶胀作用越强,导致PET表面变得疏松多孔,小分子醛和缩聚副产物乙二醇等越容易脱除。热力学性能测试表明,随着缩聚脱醛时间增加,聚酯产品结晶度逐渐增大,其主要是由超临界CO2的塑化作用诱导聚酯结晶导致的。综上所述,利用超临界CO2可以有效强化PET固相缩聚脱醛过程。
GB/T 14190-2017 纤维级聚酯(PET)切片试验中乙醛测定 测试谱图:
GB/T 14190-2017 Determination of acetaldehyde in fiber grade polyester (PET) chip test
GB/T 14190-2017 Determination of acetaldehyde in fiber grade polyester (PET) chip test Details:
Name: capillary column
Fixative: polyethylene glycol
Specifications: 30m*0.32mm*0.25um
Model: PEG-20M
Application: GB/T 14190-2017 Fiber Grade Polyester (PET) Chip Test Method
Acetaldehyde co
ntent is one of the im
portant indicators of polyester (PET) chips, and the co
nventional solid-phase polyco
ndensation process usually takes a long time to reduce its value to below 1 ppm to meet the requirements of PET for bottles.
Haohan Chromatography (Shandong) Application Technology Development Co., Ltd. co
nducted viscosity analysis, headspace gas chromatography, scanning electron microscopy, differential calorimetry scanning, etc. on the polymerization degree, acetaldehyde content, microscopic morphology and thermal properties of polyester products after dealdehyde characterization. The results show that when the periodic renewal time is 1h, the optimal process co
nditions for supercritical CO2-assisted solid-phase polyco
ndensation of PET for dealdehydeization are as follows: dealdehydeization temperature of 230 ℃, CO2 pressure of 8 MPa, and particle size of 0.30 mm-0.45 mm. Under this process condition, polyester polymers with a degree of polymerization close to 150 and an acetaldehyde co
ntent of less than 1 ppm can be prepared in a relatively short time. SEM analysis showed that the smaller the particle size, the stro
nger the plasticizing and swelling effect of supercritical CC02 on the PET matrix, resulting in a loose and porous PET surface, and the easier removal of small molecular aldehydes and polyco
ndensation by-products such as ethylene glycol. Thermodynamic performance test showed that with the increase of polyco
ndensation dealdehydeization time, the crystallinity of polyester products increased gradually, which was mainly caused by the plasticization of supercritical CO2 induced polyester crystallization. In summary, the use of supercritical CO2 can effectively strengthen the PET solid-phase polyco
ndensation dealdehydeization process.
GB/T 14190-2017 Determination of acetaldehyde in fiber grade polyester (PET) chip test Test spectrum:
