Determination of Intrinsic Viscosity of Polyester Products

1 Scope

This standard applies to the determination of the intrinsic viscosity of prepolymers, polyester chips and melts. The measurement range is: 0.020-1.500dL/g

1 Scope

This standard applies to the determination of the intrinsic viscosity of prepolymers, polyester chips and melts. The measurement range is: 0.020-1.500dL/g

2 Method Overview

The sample was dissolved in a mixture of phenol and 1,2-dichlorobenzene. The flow time t was measured by an Ubbelohde viscometer. The flow time of the mixture of phenol and 1,2-dichlorobenzene was measured by an Ubbelohde viscometer. , to determine the relative viscosity of the sample η relative = t / t0. The relationship between relative viscosity and intrinsic viscosity can be expressed by the Billmeyer equation:

η characteristic=1/4×(ηrelative-1)/C+3/4×(lnηrelative)/C

Where: C-sample solution concentration, g/100mL;

η characteristics - sample intrinsic viscosity, dL/g;

η-relative-sample relative viscosity.

3 Instruments

3.1 Viscometer: The temperature can be controlled to 25.00 ± 0.05 °C.

3.2 Ubbelohde viscometer, plus a viscometer frame that matches it.

3.3 Thermometer: 0-50°C, 0.1 degree.

3.4 Magnetic heating stirrer.

3.5 Pipette: 25 mL.

3.6 metal filter: 200 mesh.

3.7 stoppered flask: 50 mL.

3.8 Teflon stirrer.

3.9 Glass funnel: 5 cm in diameter.

3.10 Beaker: 5000 mL.

4 Reagents and materials

4.1 Water: Meets the requirements for tertiary water specified in GB 6682-92.

4.2 Phenol.

4.3 1,2-Dichlorobenzene.

4.4 Ethanol.

4.5 Hydrochloric acid solution: (1+1).

4.6 Acetone.

5 test steps

5.1 Preparation of phenol-1,2-dichlorobenzene solution

5.1.1 mixed phenol / 1,2-dichlorobenzene: 510mL 1,2-dichlorobenzene was added to a bottle containing 1kg of phenol (3:2 by weight mixing), the density of the solution was 1.151 ±0.001g/cm3 (25 °C).

5.1.2 Heat the mixture in an oven. The oven temperature is 60°C. During the heating process, it should be shaken continuously until it is evenly mixed.

5.1.3 Pour the solution through the filter into the brown reservoir bottle.

5.2 Determination of blank

5.2.1 set the viscosity bath water temperature 25.00 ± 0.05 °C.

5.2.2 Add approximately 17 mL of phenol/1,2-dichlorobenzene solution (5.1) to the viscometer between the two marked lines.

5.2.3 Put the viscometer in the water bath of the viscometer and keep it at a constant temperature for 15-20 minutes. Determine the flow time of phenol/1,2-dichlorobenzene. Measure five times. The deviation should not exceed 0.1 second.

5.2.4 Take the average of five tests as the flow time of each freshly prepared phenol/1,2-dichlorobenzene solution. The flow time of the to measure should be between 80-120 seconds. Too high and too low are not allowed.

5.3 Preparation of Samples

5.3.1 The moisture content of the polyester should be less than 0.5%. Wet slices should be cleaned with acetone and the residual acetone should be sliced ​​and dried in an oven at 80 °C for 15-20 minutes. The residual moisture is so small that it does not have a significant effect on the relative viscosity value.

5.3.2 If the polyester has a high degree of crystallinity, its crystal structure must be destroyed. The method is to load the slices into a suitable grinder to crush the slices (pressure is about 150 bar).

5.4 Test

5.4.1 Finely weighed 125-145mg sample to a value of 0.0001g and put it into a 50-mL Erlenmeyer flask. Add 25 mL (weight 28.75--28.80 g) of phenol/1,2-dichlorobenzene solution (5.1.1 ), put a magnetic stir bar, and cap it.

5.4.2 Place the flask on a magnetic stirrer and heat, stir and dissolve the sample at 90-100°C.

5.4.3 After the sample is dissolved, cool the sample.

5.4.4 The sample solution is filtered through a 200 mesh metal filter and added to the viscometer.

5.4.5 The viscometer shall be immersed in a water bath of the viscometer for a period of 20 minutes. Through three measurements, the flow time of the sample solution shall be determined. The difference shall not exceed 0.2 second.

5.4.6 Calculate the average t of the three measurements.

5.5 Calculation

5.5.1 Determination of Relative Viscosity

          η relative = t (average flow time of sample solution, second) / t0 (average flow time of phenol/1,2-dichlorobenzene solution, second)

5.5.2 Correlation Factor F

          The relevant factor F read out from the attached table.

5.5.3 Calculation of Intrinsic Viscosity

         With the relevant factor F, divided by the weight of the sample, the value is the intrinsic viscosity.

         η characteristic = F/W

         Among them: η characteristics - sample intrinsic viscosity, dL/g;

         F-related factor, mg·dL/g;

         W-sample weight, mg.

5.5.4 The difference between two parallel determinations of the same sample is not greater than 0.008 dL/g, and the arithmetic average is taken as the measurement result. The result is rounded off to the third decimal place.

5.6 Viscometer Cleaning

5.6.1 After the operation is complete, pour the solution from the viscometer into the waste bottle.

5.6.2 Place the viscometer to be cleaned in a beaker.

5.6.3 Add an appropriate amount of ethanol to the viscometer and wash it several times with a suction earball. Thoroughly pour off the residue.

5.6.4 soak in hydrochloric acid solution for one day.

5.6.5 Clean the viscometer with water, rinse with ethanol, and dry it upside down on the shelf.

5.6.6 The viscometer is cleaned with chromic acid lotion when it is used for the first time or when there are many impurities.

 Description

When the normal polyester chips are melted or no oil, the heating temperature cannot be too high and cannot exceed 100°C. This step takes about 15 minutes.

When the dry section before spinning is dissolved, the heating temperature can be increased to 130-140°C.

7 Precautions

Phenol, 1,2-dichlorobenzene and acetone are toxic. Avoid inhalation and contact with the skin. Wear rubber gloves and goggles when preparing and using these chemicals. All operations including waste treatment should be completed in a fume hood. . The waste liquid is poured into the waste barrel and processed regularly.

Introduction and influencing factors of kinematic viscosity determination of petroleum products

Scope of application

The petroleum product movement tester is designed and manufactured according to the national standard GB/T265. It is used to measure the kinematic viscosity of liquid petroleum products. LCD screen Chinese display, man-machine dialogue interface, preset temperature, test time and other parameters menu prompt input, appearance design is beautiful, is the introduction of new instruments.

Viscosity is one of the main indexes of petroleum products, and viscosity is one of the important factors that affect the biodegradability of base oils. Many domestic lubricants are classified and classified according to their kinematic viscosity of 40oC and 100oC. In practical application, viscosity is an important index to evaluate the flow performance of lubricating oil. It is important for quality identification of petroleum products and their application. Viscosity is large, oil film thickness is large, lubrication performance is good, but the viscosity is too large, will increase the friction resistance, waste of resources.

Kinematic viscosity is the ratio of the dynamic viscosity of a liquid to its density at the same temperature. It represents a measure of the friction of a liquid when it flows under gravity. Kinematic viscosity measurement is the determination of the time at which a certain volume of liquid passes through a calibrated glass capillary viscometer at a constant temperature. The product of the capillary constant and flow time, i.e., the kinematic viscosity of the liquid at this temperature.

Functional characteristics

1. ring type fluorescent lamp illumination, fluoroscopy is good. Easily observed.

2. heater and guide tube and bath parts are made of stainless steel, durable and durable.

3. Automatically calculate the capillary constant and the average product of the test time. The temperature control precision is high and the accuracy is good.

4, computer temperature control, timing, constant temperature, water bath and other parts. Constant temperature bath is small cylinder, round cylinder, double layer, uniform temperature distribution in the bath, the temperature control effect is good.

5. Chinese LCD screen display, man-machine interface, the preset temperature, test time and other parameters, menu input, actuator adopts advanced SSR, its features of no contact, no spark, no action noise, vibration resistance, long life.

Technical parameter:

1, weight: 25kg

2, constant temperature accuracy: + 0.1

3, the number of cards installed capillary: 3 branches

4 ,heater power: 1000W

5, environmental temperature: room temperature to 35 degrees

6, temperature control settings: room temperature to 100 degrees set at any time

7, work power supply: 220V + 10% 50Hz

The main factors influencing the determination of kinematic viscosity:

First, the measurement of the factors:

1. Stopwatch: The stopwatch is used to determine the time the sample flows through the viscometer. If the stopwatch is not precise enough, it may cause a test error. Therefore, for the use of the stopwatch, be sure to regularly test.

2. viscometer coefficient: capillary viscometer must be calibrated on a regular basis, otherwise it will cause a greater error.

Second, the experimental operation of the factors

1, the viscosity of the process of measuring the flow of oil through the viscometer

The flow time of the specimen must be within the specified range. GB / T265 provides that the flow time to> 200S. Mainly in order to ensure that the oil flow in the viscometer for the laminar flow. If the oil flow rate is too fast beyond the specified range, will become turbulent, with turbulence can not use the cassace equation to calculate the viscosity of oil. In addition, the flow rate is too fast, the reading error will increase accordingly. If the oil flow rate is too slow, within a specified time is not easy to maintain constant temperature

2, the viscosity of the test process bath temperature accuracy

Determination of kinematic viscosity to be strictly in accordance with the provisions of constant temperature test, which is the determination of oil moving viscosity of one of the important conditions. In GB / T265, the temperature control accuracy of the thermostatic bath must be ± 1oC, while in the ASTMD445 bath temperature control accuracy of ± 0.5oC. Because the viscosity of the oil sample decreases with increasing temperature and increases with the temperature drop, it must be strictly in accordance with the specified constant temperature, the slight temperature deviation will make the viscosity measurement results have a greater error.

Third, the viscosity of the other factors in the determination process

Test oil samples containing impurities, moisture and capillary viscometer is not washed, will also affect the sample in the capillary viscometer in the normal flow, the results are high. The solvent used for the washing in the viscometer is not dry and the sample is diluted so that the result is low.

When measuring the viscosity of the oil, the sample in the viscometer can not have air bubbles. If the oil bubbles will affect the oil volume, while entering the capillary will form a gas plug, so that the flow resistance of oil increased, the determination of high results.

Kent Yuan (Mr.) Hangzhou Zhongwang Technology Co., LTD.

P  /Wahtsapp: +86 15068109723  E lei@zonwon.com

Application of Hangzhou Zhongwang's Viscometer in Polymer, Plastics, Rubber and Other Fields

Application of Hangzhou Zhongwang's Viscometer in Polymer, Plastics, Rubber and Other Fields

Polymer material characterization is an important field of polymer science. From the initial aggregation, laboratory analysis, prediction of processability, and then to predict end-use performance, and the impact of material degradation on the environment, polymer characterization is an important way for us to understand or predict material properties throughout the life cycle process.

Hangzhou Zhongwang Technology CO.,LTD of Ubbelohde viscosity automatic measurement equipment can quickly measure the kinematic viscosity, dynamic viscosity, Concentrated viscosity, intrinsic viscosity, relative viscosity, polymer molecular weight, rheological properties and other information. The software integrates almost all of the viscous calculation formulas, and the experimenter does not need to do it manually.

Application of polymer recycling:

Recycling may cause changes in polymer properties. For example, shearing and heating can cause degradation; the addition will weaken the material properties. Therefore, the quality control of recycled materials is of great importance to the target application of these materials. The automatic viscosity measurement system of Hangzhou Zhongwang Technology Co.,ltd can measure the intrinsic viscosity and viscosity average molecular weight of the recovered polymer.

Kent Yuan (Mr.) Hangzhou Zhongwang Technology Co., LTD.

P  /Wahtsapp: +86 15068109723  E lei@zonwon.com

Influence of Test Temperature on Polyester Chips Viscosity

Influence of Test Temperature on Polyester Chips Viscosity

Abstract: Testing result indicates that polyester chips viscosity are very sensitive to the test temperature. So it requires to control the temperature precision range strictly . Therefore, an ideal constant temperature water bath is necessary to get the reliable result of the viscosity.

Polyester resin in the field of polymer occupy a leading position, it is not only high strength, good heat resistance, non-toxic, and good insulation. By different processing means, it can be made in the film, in the audio and video tapes, lighting film, food packaging, for high-strength composite film, and can be processed into different types of beverage bottles and electrical parts. Polyester chips are also important raw materials for the chemical fiber industry. Spinning polyester chips must maintain a high purity. So the inspection department to each batch of products to conduct a series of performance indicators to ensure the quality of the batch. The viscosity index indirectly represents the size of the molecular weight, which directly affects the quality of the finished polyester yarn, and the test temperature is particularly sensitive to the viscosity, so the required test temperature range must be strictly controlled.

Polyester chips are specified in the relevant standard method by dissolving one or two mixed solvents at a certain temperature to a certain concentration and then measuring the solvent at a specified test temperature by an Ubbelohde viscometer (having a defined capillary diameter) And the time the solution flows, converted into relative viscosity and intrinsic viscosity. ASTMD2857 specified test temperature accuracy of ± 0.01 ~ 0.02 ℃, ISO12228 specified test temperature accuracy of ± 0.05 ℃, China is the national standard in principle to the ISO closer to the set, also set to ± 0.05 ℃

Select the Taiwan polyester chips (contract, the intrinsic viscosity IV0.645 ± 0.015) set the temperature of the thermostat different temperature for the test to observe the changes in viscosity:

1. Test conditions

Solvent: mixed solvent, weight ratio of phenol: tetrachloroethane = 3: 2

Solution concentration: 0.5%

Test temperature: 25.00 ~ 25.08 ℃

2. Accuracy measurement at different temperatures

Table 1 Effect of temperature on the determination of PET slice adhesion

The same time as

Test temperature ° C Relative viscosity Viscosity

25.00  1.363  0.645

25.01  1.363  0.645

25.02  1.360  0.641

25.05  1.355  0.634

25.08  1.350  0.625

From the data of Table 1, the intrinsic viscosity value decreases with increasing temperature, the temperature rises by 0.01 ℃ Viscosity is not affected; the temperature rises 0.02 ℃, the intrinsic viscosity decreases 0.004; when the temperature rises to 0.05 ℃, the intrinsic viscosity decreases 0.011; To 0.08 ℃, the intrinsic viscosity dropped to 0.021, has been outside the scope of the contract. This shows that the temperature parameters directly affect the size of the viscosity, it is necessary to strictly control the temperature accuracy range, the determination of the results can be a reliable guarantee.

3. Need to pay attention to the problem

Determination of viscosity method is not complicated, but in order to ensure the correctness of the test results must be strictly to the various test links, try to avoid errors. This is mainly: ① weighing; ② solution preparation; ③ viscometer cleaning; ④ viscosity determination of the viscosity of the vertical degree; ⑤ visual line when the level of the situation; ⑥ timer press speed; ⑦ constant temperature water bath temperature The

Among them, the constant temperature water bath temperature control accuracy is determined by the thermostat, and the visual line of the error is also determined by the thermostat, especially those observation window for the arc when the marking line blurred, the greater the error. In addition, it is almost entirely determined by the quality of the inspectors. Therefore, the configuration of an ideal precision constant temperature water bath is a guarantee of an important device for viscosity determination.

The same time as

At present, the domestic production of the thermostat groove accuracy is rarely higher than ± 0.05 ℃, roughly, seems to meet some of the international standards and the implementation of the new national standard, but in fact, due to uneven temperature distribution throughout the tank, With the temperature control temperature fluctuations, the overall control accuracy is clearly inferior to 0.05 ℃, especially in the factory application, a number of viscometer placed in different locations, this phenomenon even more directly affect the test data, while , The thermostatic bath with the refrigeration system is far from being extended, and the viscosity test also brings a lot of trouble (generally, there is no cooling system of the thermostat, only when the room temperature is lower than the test temperature of 5 ℃, to ensure that the temperature control Precision).

What is the true 0.01 ° C temperature control accuracy?

The same time as after adjusting the temperature of the thermostat, from today to tomorrow, the temperature changes, not more than 0.01 ℃, and the temperature inside the thermostat tank temperature distribution is poor, not more than 0.01 ℃.

Kent Yuan (Mr.) Hangzhou Zhongwang Technology Co., LTD.

P  /Wahtsapp: +86 15068109723  E lei@zonwon.com

Difference Between Ubbelohde Viscometer and Brookfield Viscometer

Difference Between Ubbelohde Viscometer and Brookfield Viscometer

Abstract：Introducing of Ubbelohde viscometer and Brookfield Viscometer. Concept, difference and advantages of ubbelohde viscometer and Brookfield viscometer.

Brief introduction of Ubbelohde viscometer：

When the fluid is flowing by external force, there is a tangential internal friction between the flowing liquid layers, and if the liquid is to pass through the tube, a portion of the work must be consumed to overcome the resistance of the flow. When the flow rate is low, the liquid in the pipe is advanced in a straight line parallel to the pipe wall. The liquid closest to the pipe wall is actually stationary, and the farther the distance from the tube wall is, the greater the flow rate is. The tangential force f between the flow layers is proportional to the contact area A between the two layers and the velocity difference Δv, and is inversely proportional to the distance Δx between the two layers: where η is the proportional coefficient, called the viscosity coefficient of the liquid, Referred to as viscosity.

The molar mass of the polymer not only reflects the size of the polymer molecule, but also directly related to its physical properties, is an important basic parameter. Unlike conventional inorganic or low molecular organic matter, the polymer is mostly macromolecular mixture of different molar mass, so the measured molar mass of polymer is usually a statistical average. 

Brief introduction of Brookfield Viscometer:

       Brookfield Engineering is an engineering and manufacturing company with headquarters in Middleboro, Massachusetts. Its product line includes laboratory viscometers, rheometers, texture analyzers, and powder flow testers as well as in-line process instrumentation. These instruments are used by research, design, and process control departments. It was suspected of causing one of Massachusetts' most unusual and serious residential toxic waste contamination problems, and settled the claim by paying relocation and cleanup costs without admitting responsibility.       

Classical Brookfield viscometers employ the principle of rotational viscometry - the torque required to turn an object, such as a spindle, in a fluid indicates the viscosity of the fluid. Torque is applied through a calibrated spring to a disk or bob spindle immersed in test fluid and the spring deflection measures the viscous drag of the fluid against the spindle. The amount of viscous drag is proportional to the amount of torque required to rotate the spindle, and thus to the viscosity of a Newtonian fluid.In the case of non-Newtonian fluids, Brookfield viscosities measured under the same conditions (model, spindle, speed, temperature, time of test, container, and any other sample preparation procedures that may affect the behavior of the fluid) can be compared. When developing a new test method, trial and error is often necessary in order to determine the proper spindle and speeds. Successful test methods will deliver a % torque reading between 10 and 100. The rheologicalbehavior of the test fluid can be observed using the same spindle at different speeds, but because the geometry of the fluid around a rotating bob or disk spindle in a large container does not allow a single shear rate to be assigned, proper rheometry is not feasible using this setup.

Apart from its rotating bob viscometers, Brookfield now also produces defined-geometry rheometers which allow complete rheological analysis of fluids.

Difference Between Ubbelohde Viscometer and Brookfield Viscometer

1. Ubbelohde Viscometer：Cheap, suitable for relative measurement, Uptel viscometer itself can not control temperature, with precision thermostat can be accurate measurement of viscosity, in addition to the Ubbelohde viscometer installed in the automatic viscosity test equipment, you can achieve Ubbel's viscosity Automatic measurement, directly to the intrinsic viscosity, than the viscosity, relative viscosity, viscosity, viscosity average molecular weight and other needs of the measurement results.
2. Brookfield Viscometer：Have adopted the well-known viscosity measurement principle, which absorbs the viscosity value by the continuous rotation of the rotor immersed in the liquid to be measured. The torque is proportional to the resistance of the rotor immersed in the sample by sticky dragging, proportion.

Kent Yuan (Mr.) Hangzhou Zhongwang Technology Co., LTD.

P  /Wahtsapp: +86 15068109723  E lei@zonwon.com

Coyp right by @Hangzhou Zhongwang Technology CO.,LTD