Consider Criminal Liability Case Study Example | Topics and Well Written Essays - 1500 words

Consider Criminal Liability - Case Study Example Similarly in the case of Jane, under s3 Theft Act 1968, she innocently or intentionally is keeping the money with her, however in the case of candles which Jane borrows refers to the s2 (1) (b) where Jane is not considered under Theft Act s 3 as she has borrowed them and is in intention to gave them back. (Harvey et al, 1998, p. 43) But then she uses the candles which comes under the case of an offence under the Theft Act 1968, where the property in question is recovered, any damage to the property occurring while it was out of the owner's possession shall be treated for the purposes of subsection (1) as having resulted from the offence, however and by whomsoever the damage was caused. This is similar to the case Jackson v. Horizon [1975]2 It is now possible to commit the crime of false pretences in many jurisdictions by borrowing money with the intent not to repay it. Receipt of the money satisfies the element of acquiring title. Though the borrower falsely promises to repay the loan, he engages in no deception about the external world that is subject to proof at the time of his act. His deception, if any, is about his plans for the future, and the best evidence of that is what he does when the debt falls due. Though the crime is technically committed at the time the loan is received, the critical evidence of liability is furnished by his failure to repay at some future time. (Fletcher, 2000, p. 11) Although the result of Jackson's case is sensible and probably correct, Lord Denning's reasoning has since been disapproved in the House of Lords in Woodar Investment Development Ltd v Wimpey Construction UK Ltd [1980] 1 All ER 571, [1980] 1 WLR 277, HL. As a rule of Law, Lush LJ as an insurance broker may sue on a contract which is made by him on behalf of the principal provided the contract gives him such a right and is no authority for the proposition required in Jackson's case 3. However if a person X made a contract for a sum of money to be paid to Y, X can, without notifying the loss he has suffered can sue for damages for non-payment of that sum which would certainly not be an established rule of law, nor was it quoted as such authority by Lord Pearce in Beswick v Beswick4. A similar view was expressed by Lord Russell. Whether the disapproval will make any difference in practice to the quantum of damages awarded in family holiday cases is unclear. A sympathetic judge might choose to place more emphasis on the distress of the contracting party in witnessing the family suffering. (Harvey et al, 1998, p. 44) Jane situation is critical as she receives 70.00 instead of 50.00. Under this situation the law states a person who receives a gift has no right of redress against the donor merely because the gift is of unmerchantable quality or does not correspond with the donor's description of it. The person receiving the gift may have a remedy in tort if the gift causes injury or damage which is attributable to negligence on the donor's part. But that is another matter: he has no remedy in contract against the donor for the simple reason that there is no contract between them. To the extent that the offer of worthless goods, without charge, as part of a sales promotion, is against the public

Debate and team paper Essay Example | Topics and Well Written Essays - 500 words

Debate and team paper - Essay Example This grows the country’s economy significantly. This paper will review some of the advantages of tourism on both the political and economic front. The political situation in the Philippines is questionable at the moment. However, the government supports tourism since they benefit from all the foreign capital that flows into the country (Lumang, 2008). Some of the political class that supports tourism offer the tourists with accommodation during their stay. It is tantamount that the political class be involved. This is because they offer comfort to all those that wish to travel to the Philippines for holiday, and business. There are establishments run by politicians which offer tourists with the best services, hence providing them with a chance to host more tourists in a year. Another advantage that comes with tourism for the political front is the laws that are in place that promote tourism as an investment. There are laws still being passed in parliament for there to be tourist zones. This means that politicians will push for the building of restaurants, resorts, and hotels to benefit the tourists. The proposed laws also offer incentives to potential investors since they offer the exemption of duties placed on some goods and services (Lumang, 2008). Investors may want to bring their capital to the Philippines since it is profitable. Tourism is raking in billions of dollars into the country. In the near future, it is evident tourism will be responsible for the direct employment of more than four million Filipinos in the country (Lumang, 2008). The Philippines is marketing itself as the preferred destination for all foreign nationals. If people are willing to invest in the country, it is only a matter of time before the country realizes some of its most desired dreams. As many people are retiring to the Philippines, it is offering a new variety of amenities for them.

Understand Group Dynamics Essay Example for Free

Understand Group Dynamics Essay I.Introduction To understand Organizational Behavior and Management, we must study three different levels. The first is the individual level, because every individual has its own unique perception of the world and what surrounds him. Individuals behave following how they interpret this and their environment. Each individual is different from the next one, because of its personality and characteristics. However, it’s possible to organize them by categorizing their perceptions. Categories such as Appearance, Social behavior and Status are often considered. Individual’s motivations must be analyzed to understand the next level : the Group. A Group is composed by 2 or more individuals, who come together to accomplish a particular task or goal, which is why their behavior is very important and has to be studied first. A manager leading a group will have to take into account each of the individual characteristics in order for it to work. As individuals join and create a group, shall it be a formal or informal one, we slowly change focus. The individual needs, perceptions and motivations get absorbed and the Group creates its own norms of acceptable behavior for all the individuals to follow for as long as they are part of the Group. They don’t, however, chance the individual itself when he is by himself. As Groups develop its own norms and statuses, its behavior evolves. The third level, is Organizations. That level is different from the Group one because it involves systematic efforts and organizations are engaged in the production of goods and services. It’s also different from the sum of the individuals perceptions because it can impact how individuals behave with each other, thus influencing their perception. An organization though, is comparable to an individual because each is unique and has its own culture. Moreover, if the values of the organization match the values of the individuals, they will enjoy being part of it more than if it’s not the case. The second level, Group Dynamics, is the one that will be focused on in this report. II.Group Characteristics. a)Formal and informal groups. There are different kind of groups, but they can mostly be split into two categories : Formal and Informal. Formal groups are groups officially planned and created by the organization to do a specific task. At ESSEC, we could compare them to the individuals who, in groups, did the OB presentations. They were officially planned in the course to do a presentation. In an organization, a formal group could be the Marketing (or any other) Department. In a formal group, there is a structure. Often, individuals are given specific tasks to complete within the main final task. Sometimes, there is a hierarchy and written rules. Informal groups are not official per say. They are natural social formations established by individuals rather than organizations, and unplanned. In a workplace, it could be a group of employees meeting once a month for dinner to discuss their Fishing hobby. At ESSEC, it could be an unofficial football team made especially for a tournament within the school. The purpose of an informal group can be pursuing a special interest, be social, or even just have fun. b)Group effectiveness Group dynamics concern how groups form, their structure and process, and how they function. Some groups are more successful than others. Why ? A common mistake would be to say that if your group members or employees are hard working, happy, competitive or smart, the group only can function well. But as a matter of fact, that doesn’t mean they are honest, productive, loyal or creative. However, teamwork and communication between members is capital. Managers can help increasing a work group’s performance when they create it by taking into consideration the characteristics of members they assign to particular groups. The members should have tasks assigned to them according to their domain of expertise and appropriate interpersonal skills to facilitate interaction and communication with others. Moreover, a degree of diversity among group members has shown to usually add to performance. If members are attracted to the group because they like members of the group, or the group activities/goals or just because it fills a need for affiliation, they are more likely to be productive. The size of the group also has an influence on the group’s performance. According to recent research, medium sized groups of 5 to 7 people seem to have the higher performance in organizations. If the group is smaller, there’s a chance it can highlight the individual differences and harm the group cohesiveness. If group are too large, people tend to work more by themselves (â€Å"Free riding†) rather than with the whole group, or create smaller teams within the group. c)Group norms. Norms are acceptable standards of behavior within a group that are shared by the members of the group. Norms define the limits of what is acceptable and what is not in terms of behavior. They are typically imagined in order to facilitate group survival, make behavior more predictable, avoid embarrassing situations, and express the values of the group. Each group will establish its own set of norms that may determine anything from the appropriate clothes to wear at a dinner to how many comments to make in a meeting. Groups pressure members to force them to conform to the groups standards. The norms often reflect the level of commitment, motivation, and performance of the group. The majority of the members of the group must agree that the norms are appropriate in order for the behavior to be accepted. There must also be a shared understanding that the group supports the norms. However it may happen that the norms are broken from time to time by some members. If the majority of members do not adhere to the norms anymore, then there is a chance they will eventually change and will no longer serve as a standard to study the group’s behavior. From there, group members who do not conform to the norms risk being excluded, ignored, or asked to leave the group. d)Group Roles Having a diversity of skills and ideas within a group often enriches the group process and can improve the final product. It can, however, also be seen as a challenge to work with people different from ourselves and avoid exacerbating individual characteristics. One way to structure group functioning and benefit from each other’s expertise is to assign roles to each member of the group based on individual’s strengths. It can also be a good idea to switch roles between members periodically so every member understands why those roles are important. I have found that four roles that have the potential to maximize group performance and help understanding group’s dynamics and behavior in the workplace. A group should not be composed of just those 4 people, but the others would only have tasks assigned to them. They are as follow : The first is the Leader, also called Facilitator. He’s the one who clarifies the aims of the group and helps the members set smaller tasks for themselves to work on. Leaders also make sure that all group members understand the concepts of the project and that the group’s conclusions make sense. If the group has meetings, he is the one who introduces the agenda of tasks to complete until the next meeting, mind oriented towards the final goals. Then, the Monitor, also called Arbitrator. Its key role would be to monitor carefully if the group is functioning well. Regularly, he will initiate discussions on group climate and process, especially if he senses tension or sees there could be a conflict between two or more members. During disagreements or conflicts, he will explain each sides arguments and suggests solutions to resolve the conflict. He makes sure that all group members have a chance to participate and learn from the process. There’s also the Note/Time Keeper. Note and Time Keeping are two different things, but the role could be taken by just one person. He keeps a record of what has been decided, shall it be tasks that are assigned to who or other any other information by taking notes when the group meets or when talking to group members. He makes a summary of previous discussions/decisions and makes it available for all the members to see. He also presents the group progress to the supervisor regularly to make sure the group is headed in the right direction. The Time Keeper keeps track of time during meetings to avoid spending excessive time on one topic. This is best handled by deciding how much time will be allocated to each issue in the agenda, and letting everyone know when this time is up. It is also useful to point out when time is almost up so that issues can be wrapped up appropriately. Finally, there’s the Devil’s Advocate. It’s someone who takes a position he does not necessarily agree with, for the sake of argument. In taking such position, the individual taking on the devils advocate role seeks to engage others in an argumentative discussion process. The purpose of such process is typically to test the quality of the original argument and identify weaknesses in its structure, and to use such information to either improve or abandon the original, opposing position. He must keep his or her mind open to problems, possibilities, and opposing ideas at all times. e)Group or Team ? We could say a group is just a collection of people whereas a team is that same collection of people who are working together on a common goal. Example: A group of people get in an elevator. They all have different goals and agendas for being on the elevator, they don’t even know each other, or maybe they do, it’s irrelevant. The group becomes a team when the elevator breaks down. Now they all have the same goal : figure out how to get out of the elevator. The difference between Group work and Team work can be resumed as follow. A group will focus on individual goals. Each member will produce individual work products. Individual tasks, roles and responsibilities will be assigned. Also, in a group, the manager is the one who sets up the purpose, goals, approach to work. A team is slightly different. The focus is on team goals. It also defines roles, responsibilities, and tasks but will often share and rotate them to help team do its work. The goals and approach to work w ill be shaped by the team members together.

Manufacturing Processes Of Plastic Commerce Essay

Manufacturing Processes Of Plastic Commerce Essay Plastic is a major part of almost every industry imaginable. From food and beverage packaging, to childrens toys, to automotive applications, plastic is all around us. Plastic is a versatile material which can be used for many purposes depending on the specific properties. This report will explore the history of plastics, the manufacturing process, and what to expect from plastics in the future. For simplicity, we will look primarily at the two of the main types of plastics: high density polyethylene, HDPE, and polyethylene terephthalate, PET. These two types of plastic have been the stepping stones for other plastic discoveries and their properties attributed to the many bottle applications. There are different processes that correspond to each plastic type depending on the specifics of the end application. Quality control and quality assurance are vital to plastic companies. These departments provide the customer with the satisfaction of a well designed product, which is why it is so vitally important. There are other problems plastic companies face on a daily basis such as change-outs, direct printing, stopping time, and damaged goods. These problems are capable of setting a company back from profit, and there are solutions being made for each of these issues. Perhaps the biggest concern regarding the plastics industry today is about recycling and what is being done to reuse and conserve our natural resources and minimize the negative impact on the environment. Recycling needs to be faced head-on and the steps to reuse and minimize waste are explored in this paper. The History of Plastics Plastics have always been viewed in two different ways. On the one hand, some view plastics as one of the most useful materials ever made, but on the other hand some see plastics are artificial, toxic, and detrimental to the environment. Plastic is a material that is engineered by men and can be shaped into almost any desirable form. They were designed in order to replace prominent products with an inexpensive yet efficient substitute. For centuries people have used natural resins similar to plastic, but not until the mid-1800s, did the commercial development of plastics begin (Plastics 563). In 1862, the first man-made plastic was developed by Alexander Parkes. This plastic, known as Parkesine, was designed to be molded and yet retain its shape when cooled, in order to replace natural rubber (Masterson). Later in the decade John W. Hyatt developed a material to eliminate the need for ivory in the manufacturing of billiard balls. In 1870 the material was patented and named celluloid, and this was the first synthetic plastic to succeed commercially (Plastics 563). This plastic was a breakthrough, but did have a problem with being highly flammable. Other plastics would soon be invented to fix these problems and cover a wide variety of products. In 1909, Leo Baekeland patented a resin (a material made from acids) known as Bakelite which helped pave the way for the development of commercial plastics. Bakelite opened the door to scientists to begin to understand the chemistry of plastics (Plastics 564). All plastics belong to one of two groups, thermosetting plastics and thermoplastics. Thermosetting plastics are plastics that are heated but can only be molded once. Since we are covering the manufacturing of plastic bottles, we will not deal with this type of plastic. Bottles are commonly recycled, requiring the reformation of a plastic, which is the definition of thermoplastics. The thermoplastic we are most interested in is polyethylene (PE). Polyethylene was first produced in 1933 and used on radar systems during World War II to make them light enough for airplanes (Masterson). The rise of polyethylene continued after the war and became one of the most used plastics in the world. In 1953, high density polyethylene (HDPE) was invented by Karl Ziegler and Erhard Holzkamp and used in the production of pipes (Gabriel). However, this material didnt reach success until 1956 with the breakthrough of the Hula Hoop. The toy led to the high commercialization of HDPE being used in pipes, which revealed the materials usefulness in the making of other products such as detergent and baby bottles (Ceresana Research). Another form of PE which will be of interest is polyethylene terephthalate (PET) which was invented in 1941 by John Whinfield and James Dickson. PET was generally used in clothing but began to see more use in the manufacturing of bottles (Bellis). Not until the early 1970s did PET see use in plastic bottle manufacturing. Nathaniel Wyeth developed this bottle, by improving the method of manufacturing the bottle through blow molding. Blow molding was developed earlier in the 1940s but was inefficient because of inconsistent products. In 1973 Wyeth improved this method, leading to how bottles are currently made by stretch blow molding (Secrest). Plastics have evolved from a little known substance into materials completely facilitated in many areas of production. Although the first substantial invention was credited in 1862, the general public didnt use the word until the mid 1930s (Masterson). Currently, in 2010, plastics have woven their way into many facets of manufacturing and production, yet these innovative breakthroughs have also brought many new challenges. Plastics Types Plastics come with unique properties and colors. Their ability to be molded into nearly any shape while maintaining their strength at a low cost makes them an ideal material for many uses. From piping to bottles, plastic is a very common and highly useful material. Not every type of plastic can be applied in the same way as another type. Each type of plastic also has its own advantages and disadvantages. An example of the different characteristics of plastics can be seen when comparing polyvinyl chloride (PVC) and high-density polyethylene. PVC is a type of plastic often found in piping materials while HDPE is a plastic that is often used in bottles containing materials such as detergent. PVC is very rigid and suited to applications requiring weathering resistance, inherent flame resistance, high gloss, abrasion resistance, and low cost (Bryce 129). HDPE, on the other hand, has a good balance of chemical resistance, low-temperature, impact strength, light weight, and low cost (Bryce 122). Both materials are useful in their own rights, but some plastics are much better than others at different tasks. Plastic bottles are generally made from three different types of plastic. HDPE is a material generally found in detergent bottles, such as Tide or Gain. PET is a plastic often found in drink bottles. Lastly, polypropylene is a plastic often found in clear bottles with small handles, such as a hand soap refill bottle. Each of these plastics has their advantages and disadvantages, which the industry is trying to overcome so that each plastic can be used more widely. HDPE HDPE is very commonly seen in colored, opaque plastic bottles. A large advantage of HDPE in bottle making is its ability to be layered. For example, Tropicana orange juice bottles are a multilayered, allowing the orange juice to stay fresh longer by keeping the outside environment from touching the juice contained inside. This layering process is not limited to just this bottle (Knueve). In Tide brand bottles, there are 3 layers. The outer layer is made of virgin material, HDPE that has never been used before, and the color. The middle layer contains PCR, post consumer recycle, and regrind, which is the reground excess flash that comes off other bottles. The inner layer, or the layer that touches the product is another layer of virgin material. This layering system allows the product to be stronger and also helps keep the product safer from the outside environment (Knueve). The main reason for layering however is to consume PCR and regrind while also maintaining a protective interface layer with the product. This can also allow the color (external) and internal layers to be much thinner. A typical detergent bottle is 15% outer, 65% middle and 20% inner (Hatch). If a material is sensitive to the outside environment or even oxygen, a six layer bottle is possible. Similar to the composition of the three layer bottle, the outside layer consists of the virgin material and the next layer is regrind. However, the next three layers is what helps give the bottle the protection to the environment. Most environmental barriers do not bind well with the HDPE, so an adhesive layer must be added to each side of the barrier layer. The inside adhesive layer is then attached to the sixth and final layer, which consists of virgin resin (Knueve). HDPE is a good material choice because it is a low cost plastic. Often made using a blow mold process, bottles made from high-density polyethylene often show very good performance during bottle drop tests, a test for impact strength. HDPE also shows high low temperature toughness along with excellent resistance to chemicals and good electrical insulating properties (Lee 190). HDPE, also has some disadvantages as well. Due to the nature of the material, it has low clarity. Also, the neck dimensions are less accurate than that compared to PET bottles because of the blow molding process (Knueve). PET PET is often found in carbonated drinking bottles, such as Mountain Dew or plastic water bottles. PET bottles are often formed in injection blow molding, as opposed to extrusion blow molding. This type of plastic incorporates stiffness and good heat tolerance (Bryce 120). PET bottles are also very clear. When compared to an HDPE bottle, such as a milk container, you can easily tell which bottle is made from which type of plastic. Due to the injection blow mold process PET have neck dimensions that are much more accurate. Lastly, after a bottle is blown, the temperature drops much faster due to PET having much thinner walls, allowing less cooling time during manufacturing (Knueve). This also increases the rate at which you can produce PET bottles when compared to HDPE bottles. PET also has its disadvantages. The biggest and most obvious problem is that you are unable to blow a handle into this type of plastic. This causes issues when bottles become increasingly large, such as gallon or larger sized containers. Recently, external handles have been produced which have created a solution to this problem .These external handles can be added during the injection blow mold process, or after the bottle has been blown. Examples of these types of bottles can be found in stores today on products such as Lipton Green Tea (Knueve). Polypropylene A third type of plastic used in bottles is polypropylene which is mainly used in bottle closures. Although not common in bottles, polypropylene can be found in products that resemble PET bottles, such as a hand soap bottle. A large advantage of this material is that it can resemble a PET bottle in its gloss and clarity, but can be formed with a handle (Knueve) using an extrusion blow molding process. Polypropylene also has good impact strength unless a low temperatures. Polypropylene bottles also have good chemical resistance, high abrasion resistance and high melt strength (Lee 194). These characteristics are very similar to that of HDPE, but in bottle drop tests, especially at low temperatures, a HDPE bottle will fare better and show more impact strength (Knueve). Each type of plastic has tradeoffs however. Although HDPE has more impact strength, it is very opaque and less shiny when compared to a polypropylene bottle. Plastic Bottle Creation The first common step in any bottle making process is extrusion. Extrusion is the process by which the plastic resin is mixed and melted. Similar to a meat mincer, plastic is fed from a hopper in certain predetermined quantities and is then melted. This process mixes plastic resin together to form a uniform mixture (Lee 103). Continuous Extrusion Blow Molding (Wheel) Extrusion blow molding is a very common technique in the creation of HDPE bottles. The process of forming the bottle in extrusion blow molding is a five step process. First, the plastic resin is melted in the extruder and mixed. This melted resin then enters a die which forms the melted plastic resin into a molten hollow tube know as a parison. The parison is then fed into a mold which clamps shut. A blow pin pierces the parison inside the mold in a section of the bottle known as flash and high pressure air is injected causing the plastic to spread throughout the mold taking on the shape of the inside of the mold. After some cooling time, the piece is ejected and the flash is trimmed (Hatch). A multilayered HDPE bottle is achieved through the use of multiple extruders each feeding into the same die forming a multilayered parison. The rotary wheel and shuttle system are the two most common types of continuous extrusion blow molding. In a wheel process only a single parison is formed. The molds are mounted to a wheel and rotate around at a slow speed. As they travel past the extruder, the mold closes, encasing the parison. With the wheel, at any given moment, the parison is being captured, a part is being molded, a molded part is being cooled and a cooled part is being removed (Lee 109). Two major disadvantage of the rotary system is the complexity and setup of the clamp mechanism and the inability to produce calibrated neck finishes (Lee 110). Later in the paper, we discuss how the speed of change outs is improving, allowing this type of technology to become more dominant. Continuous Extrusion Blow Molding (Shuttle) The shuttle system follows the same principles as the rotary system. However, the molds are kept on a track. Instead of one parison being produced, the shuttle technology produces as many parisons as there are molds (Hatch). When accepting the parison, the molds clamp when the molten tube reaches the proper length. This group of molds then moves quickly back to the blowing station after the parison is cut and a blow pin enters the mouth of the bottle forming the mouth of the bottle and then blowing the remainder of the parison into the mold cavity. Shuttle molds have a few distinct advantages over a wheel. The amount of flash produced in this method is much less because the parison length matches the bottle length. In a wheel method, the parison in-between the molds can vary because of the mold spacing around the wheel. Along with more efficient trim, a shuttle system creates a calibrated neck, where as a wheel system needs to have a separate process done to finish the neck of the bottle (Hatch). Injection Reheat Stretch Blow Molding Injection reheat stretch blow molding is often used for PET bottles. This technology is a two-step process. First, the molten resin is injected into a mold cavity which forms the threads, neck and body. This shape is then transferred to a different mold where it is expanded forming the shape of the bottle (Lee 124). The first step creates what is known as a preform. These preforms do not need to be used directly after they are formed. Using quartz lights, the preforms are re-heated until they are in a pliable state where a rod then stretches them downward while a blast of high pressure air expands the bottle into the shape of the mold (Lee 124). Significant engineering goes into the design of the preform. The plastic distribution in the final bottle is obtained through the plastic distribution in the preform as well as selectively reheating the preform. The hotter areas after reheating will flow more producing thinner areas. Through the combination of preform design and reheating you can redistribute plastic to areas of the bottle that need extra strength and thin out areas of the bottle dont need the added strength. Typically the shoulder and base of the bottle have thicker areas to produce a bottle that can carry sufficient top load (Hatch). Injection stretch blow molding This process is normally considered a one step process because the preforms are produced in groups equivalent to the number of molds. This process is intermittent so instead of the preforms being manufactured and stored for later use the preforms are produced within the bottle blower. This technology is much slower that the process described above but has several inherent benefits. The first benefit is that you can produce wide mouth containers without concern for the injection mold efficiencies. In normal injection blow molding operations, the bottles have a smaller neck and some machines can create up to 144 preforms at one time. However, with a wider mouth bottle, there is less room to make each preform. Therefore, creating preforms to use at a later time, which is the reheat stretch blow process, it is much more efficient to blow directly after forming the preform. Secondly, because of the slower blowing speed this technology is well suited for smaller volume products where produ ction better matches the demand (Hatch). Quality Assurance Quality Control The traditional way to ensure that the customer received an error free product is quality control testing. In this process the products that are already manufactured undergo certain tests to determine whether or not the products meet the standards required. It is common in manufacturing that only a sampling of the products are tested not every individual item. In some facilities it would not be economical or efficient to test every single item so random samples must be used (Kalpakjian 1073). An example of a quality control test in the manufacturing of plastic bottles is to verify the thickness of the bottle walls at various locations. It would be difficult to measure the thickness at all locations using a caliper so an alternative is to slice the bottle into sections. The sections are cut using hot wires to ensure a clean cut and the bottle is always located in the same position in order to make sure the resulting sections are always the same. The sections are then weighed and compa red with standard values to ensure that the plastic is spreading appropriately throughout the mold (Knueve). It is not expected that all sections would weigh the same since specific areas need to be stronger than others such bottle shoulder or bases. Automated inspection is another process that is very prevalent in the manufacturing of products. Sensor systems are designed that measure relevant parameters of the products as they proceed through the production line. Since the products are inspected during the manufacturing process any defective ones can be removed before they reach another manufacturing process (Kalpakjian 1070). The advantage to this is that time is not wasted performing another process on an item that has already been deemed unacceptable. A problem with this process of quality control is that there is always the chance that defective products could reach the customer. Leak Tester Plastipak employs multiple quality control stations throughout their HDPE production lines to ensure that all the products that reach the consumer are of the highest quality. The main purpose of a bottle is to contain a liquid so naturally one of the most important tests along the production line is the leakage test. The bottles will be used to contain liquids but it would not be efficient to take the time to fill the bottles to capacity, ensure there are no leaks, and drain them. Also that method could lead to potential contamination and the need to completely dry the internal surface of the bottle. The solution to this method is to test for leaks with air pressure. There are multiple nozzle heads at this station and a revolving loop is incorporated into the production line at this station. When the bottle reaches this station an air tight nozzle is applied to the opening of the bottle and air is pumped into the bottle until it reaches a certain pressure (Knueve). The revolving loop allows multiple bottles to be tested at one time to ensure production is not slowed. The bottle then proceeds through the loop and if the pressure holds the bottle proceeds down the production line. If the bottle does not hold the specified pressure the bottle is taken off the line after it exits the test station by a burst of air from a nozzle locate on the side of the production line (Hatch). In order to ensure that this quality control station is functioning properly it is periodically challenged. Plastipak originally created calibrated bottles by drilling a small hole in the bottle. They recognized that not only does this create a waste of material but also leads to the chance that if the test machine is not functioning properly a defective bottle would reach the customer. The solution to this problem was to modify the machine by creating a leak of pressure (Knueve). When the test station is going to be challenged a solenoid is adjusted so that it leaks air which creates the dr op in pressure which in turn triggers the rejection of the bottle after it exits the loop. After the challenging of the test station is complete the bottles that were rejected while the solenoid was leaking can be run through the test station again eliminating the unnecessary waste of materials or risk of the challenge bottles being shipped to the customer (Knueve). Label Checker Another quality control station on the production line ensures that the labels are correct and in the right position. As the bottles travel down the line they pass through a device that takes an image of the bottle with the label on it. The software in the station is designed to recognize that specific portions of the label are orientated at specific locations on the bottle (Knueve). Once again if the bottle does not pass this test an air nozzle is located where the bottles exit the station and a burst of air is used to remove the bottle from the line. Much like the leak test station the label verifier must be challenged in order to ensure that it is functioning properly. Some defective label bottles are purposely sent down the production lines when the system is being challenged. Some examples that would be rejected are bottles with no label, skewed label, or the wrong label (Knueve). At Plastipak the tolerances are set so low that often the few bottles rejected in this station woul d still meet the standards set forth by the customer (Hatch). Spout Verifier There are certain bottles that are manufactured at Plastipak that require exterior pouring spouts attached to them. The bottles travel down the production and the spouts are secured to the bottles with an adhesive (Knueve). The spouts must be orientated in a certain direction to allow the bottle to be poured properly. A test station is situated immediately after these spouts are applied. There are many sensors located at this station to ensure that the spout will function properly. One of the sensors monitors the temperature of the spouts before they are placed on the bottle because if they are not at the correct temperature it will not seal correctly (Hatch). Immediately after the spout is placed on the bottle there is another set of sensors to ensure it was attached correctly. Two sensors located at specific locations measure to make sure the spout is orientated in the correct plane. A third sensor at the same location is used to make sure there are no gaps between the bottle and t he spout (Hatch). Finally there is a sensor that verifies the spout is the correct color. When Plastipak challenges this station they purposely send bottles through the station with spouts not positioned correctly or no spouts at all (Knueve). They also send bottles with the wrong color spout down the production line. The color recognition sensor is critical because they do not manufacture the spouts (Knueve). Process Control An alternative to a quality control system is quality process control (Quality Assurance). In a quality process control method the focus is shifted from the items produced to the processes that make the items. If the process can be fine-tuned to produce exactly the same product consistently and correctly there would be no need to check that it is to specifications and defect free. In an ideal world the production lines could be set once to produce a perfect product not only today but two years later. The reality is that things such as equipment failures, variations in the material, or unauthorized adjustments among other things could lead to the production of defective items (Gordon 424). The solution to this problem is that the processes must be monitored to ensure they are being performed within acceptable limitations. All of the monitoring systems can be networked that allows management to easily observe whether or not the processes are being performed correctly which in turn tell s them high quality products are being produced (Gordon 286). The system also has the ability to alert the operators when a process is not being performed correctly and in some cases actually shut down the production line if necessary (Gordon 287). The temperature of the resin right before the bottle is formed is an example of a key process that could be monitored. The obvious problem is that the products produced while the temperature is decreased more than likely will be defective. Another potential problem is that it could damage the molds and machinery further down the production line. If the company relied on the old method it would take the operator recognizing the error or it reaching a quality control station further down the line which would still require someone to recognize the problem and take action. In the new process control system the temperature drop could be easily detected by a thermometer and the line could automatically be shut down before a catastrophic failure. The quality process system would enable the company to streamline their production lines. Streamlining is eliminating as many activities from the production process that do not add value to the product. While the quality control checks are necessar y in situations; they do nothing to add more value to the product. Quality Assurance In the system of quality processes the quality checks that you perform actually turn into quality assurance. Since the process is being monitored to ensure correct items are being produced all quality tests that are being performed through the production line are more out of a need of assurance compared to necessity (Hatch). The question is then posed why are the production line inspections still necessary if in theory every item produced in this system is defect free. The reality is there will always be a minute amount of variation in the products being produced. The variation could be from a range of things for example quality of incoming material or wear on the machines being used (Kalpakjian 1073). There are a multitude of benefits from putting the quality into the processes instead of waiting until the product is manufactured to be concerned with quality. In the manufacturing of plastic bottles it will eliminate the amount of scrap and waste materials produced (Hatch). Also it w ill increase the reliability of the machines which improves efficiency that naturally leads to more profit. Most importantly quality process control will lead to an increase in satisfied customers (Gordon 573). Plastipak Usage Plastipak created a system that integrates all of their process control methods into a single entity. When they first began developing the system their core goals were to simply obtain a count of the bottles produced and the amount of downtime (Knueve). Plastipak realized that there was the potential to go a step further and monitor individual processes within the production line. A computer system was developed that allows management to view the status and performance of many different components of the production from any computer with internet access. The system also has an automated email system that alerts the appropriate management positions when significant malfunctions occur or there is a period of extended downtime (Knueve). A few examples of processes that are monitored are air pressure, water temperature, plastic temperature, downtime frequency and length, and reject count at different steps (Knueve). The different test stations described earlier at Plastipak now are a mea ns of assurance since the products produced meet the required specifications. Recycling The introduction of plastics into manufacturing and production has brought about a disposal problem. Being so successful, PET has attributed to this problem greatly. Since a large number of bottles are being produced, once used up these bottles create large amounts of waste because most plastics do not readily break down. These products usually were thrown away, but because of environmental concerns, active solutions were sought out. Recycling is one of the most pertinent actions taken to decrease the amount of waste created by plastic. It is a process designed to recover and reuse material, which helps conserve raw materials and keeps those materials out of landfills (Recycling 184). Instead of throwing away the bottles, people instead are encouraged to recycle them, in which case the bottles will make be used again in the manufacturing process of the same or other products. There are typically two types of recycled material used by industries: materials that have been used by consu mers and waste materials from the production process. However both of these materials can be reused in the production process in much of the same manner. These materials are usually separated by type and then broken down in different ways for reuse. Thermoplastics are re-melted and reformed into new products, or new bottles. Thermosetting plastics are usually grounded into powders or shredded, in which these are used for other products such as insulators in clothing (Recycling 184). Recycled PET was used in many other products until 1991, when the first PET bottle was made from recycled PET. This bottle was made by Coca-Cola and Hoechst Celanese Corporation and consisted of 25% recycled PET (Secrest). This paved the way for other measures taken to increase the efficiency of recycling plastics. The Process The process of recycling PET and HDPE products has been refined and engineered to get the most use out of recycled products. Typically the process is as follows: 1. All of the recycled products and waste are collected together and sent into large bales. 2. The bales are shipped to where a bale breaker which rips apart the bales. 3. The bottles are sorted by resin and color. 4. These are shredded into tiny flakes. 5. The flakes are cleaned and melted. 6. The plastic is extruded into pellets which are used in the process of forming new plastics. This completes the process of reusing the recycled plastic, where the cycle starts over for the manufacturing of plastic products (How Plastic Bottles Are Recycled). Unfortunately, recycled PET encounters problems for the manufacturing process. Although the cycle is an advantage for the environment and limiting waste, recycled PET is typically more expensive to use and has lower quality than virgin PET. Recycled PET also is regulated by the FDA which creates more restrictions (Koester). Although it would be environmentally friendly to use more recycled material in each product, it is not the most efficient decision because there are limitations involved. One reason is that the recycled material is generally more expensive. The curbside programs designed to recycle materials are not available everywhere and completely adequate. If these programs could be improved then the materials price may decrease and the quantity may increase. Also, the product needs to have a balance of ingredients, because there are limitations to the amount of each ingredient. If a bottle was

William Tecumseh Sherman :: essays research papers

William Tecumseh Sherman was born on May 8, 1820 in Lancaster, Ohio. He was educated at the U.S. Military Academy and later went on to become a Union General in the U.S. civil war. Sherman resigned from the army in 1853 and became a partner in a banking firm in San Francisco. He became the president of the Military College in Louisiana(now Louisiana state University) from 1859-1861. Sherman offered his services at the outbreak of the Civil War in 1861 and was put in command of a volunteer infantry regiment, becoming a brigadier general of volunteers after the first Battle of bull run. He led his division at the Battle of Shiloh and was then promoted to major general of volunteers. Soon after Sherman fought in the battle of Chattanooga he was made supreme commander of the armies in the west. Sherman fought many battles with such people as Ulysses S. Grant, and against people such as Robert E. Lee before he was commissioned lieutenant general of the regular army. Following Grants election to presidency he was promoted to the rank of full general and given command of the entire U.S. Army. William Sherman published his personal memoirs in 1875, retired in 1883, and died in 1891. William Tecumseh Sherman, as you have read, was a very talented and very successful man. He is remembered by many accomplishments, but probably most remembered by his famous March to the sea. Sherman's march to the sea was probably the most celebrated military action, in which about sixty thousand men marched with Sherman from Atlanta to the Atlantic ocean, then north through South Carolina destroying the last of the souths economic resources. Bedford Forrest was in Tennessee, and with Atlanta secured, Sherman dispatched George H. Thomas to Nashville to restore the order there. John B. Hood threatened Thomas's supply line, and for about a month, they both fought north of Atlanta. Sherman decided to do the complete opposite of what the strategic plan laid down by Grant six months earlier had proposed to do. In that plan Grant had insisted that Confederate armies were the first and foremost objectives for Union strategy. What Sherman decided now was that he would completely ignore the Confederate armies and go for the "spirit that sustained the Confederate nation itself", the homes, the property, the families, and the food of the Southern heartland. He would march for Savannah, Georgia and the seacoast, abandoning his own line of supply, and live off the land and harvests of the Georgia Country. Grant finally approved Sherman's plan, so Sherman set off on his march eastward, "smashing things to the sea." On November 15, 1864, Sherman began his

John Donnes The Indifference :: Poets, Poetry, Prose

John Donne's "The Indifference" is a love poem that can be interpreted in a number of ways. Not only is the meaning of the text debatable, but the audience for which the poem was intended can be argued as well. The language Donne uses leaves room for the reader's imagination and intellect to take over and decide to whom he is talking and why. The author is writing to a specific audience for a specific reason, trying to convey his point through his verse. While not all people agree as to whom this poem is intended for or whom the speaker is actually talking to, I have a good understanding as to what Donne is trying to accomplish by writing "The Indifference" and whom the voice of the piece is actually talking to. The interpretation that I found to be most convincing is that he is speaking to a woman, who is by herself, and he is letting her know what kind of qualities (or lack there of) he is looking for. He is giving a disclaimer to her on the type of person he is and how he views relationships so she knows what she's getting herself into. The first stanza starts off with the speaker listing opposite character types. All of the types listed refer to different types of women, "Her whom the county formed, and whom the town" and "Her who still weeps with spongy eyes, / And her who is dry cork, and never cries". The speaker is not referring to one type of woman in particular, but to all women in general. He is telling the woman that he is addressing know just how many different types of woman he can or will potentially be interested in. Another interesting aspect of the first stanza is Donne's wording at the beginning of each line. He starts each with either "I can love" or "Her who". This is his passive way of informing the reader as to what type of woman he can and wants to love: any woman who is alive and willing to take a chance on him. It is not until the final two lines of the stanza that he actually puts any requirements as to what kind of a woman he specifically wants, "I can love her, and her, and you and you, / I can love any, so she be not true".

Padini Holding Berhad Essay

1.1 Background of the company Padini is a Malaysian-domiciled investment-holding company headquartered in HicomGlenmarie Industrial Park, Shah Alam. Incorporated in 1971 as proprietorship under the trade name Hwayo Garments Manufacturers Company, Padini was initially engaged in the manufacture and wholesale of ladies wear. The company subsequently added men’s and children’s lines to its offerings when it established its first three brands from 1975 – 1987. In 1988, Padini discarded its role as wholesaler to take up the role of consignor. Thereafter, the first single-brand store distributing Seed was opened in 1992 in Sungei Wang Plaza, Kuala Lumpur. The company has nine labels in its family of brands and retail in 330 freestanding stores, franchised outlets and consignment counters in Malaysia and around the world. The company’s subsidiaries include Vincci Ladies’ Specialties Centre Sdn. Bhd., which is engaged in dealing of ladies’ shoes and accessories; Padini C orporation Sdn Bhd., Seed Corporation Sdn. Bhd., Yee Fong Hung (Malaysia) SendirianBerhad (Yee Fong Hung) and Padini International Limited, which is engaged in dealing of garments and ancillary products; Padini Dot Com Sdn. Bhd. (Padini Dot Com), which is engaged in provision of management services, and Mikihouse Children’s Wear Sdn. Bhd. (Mikihouse), which is engaged in dealing of children’s garments, maternity wear and accessories. Tizio was introduced to the public with the opening of its first outlet in Mid Valley Megamall in Nov 2012 and subsequently in Paradigm Mall on 23 May 2013. Like almost all of the Group’s Brands, Tizio was developed in  -house by, and is registered to the group. Anticipate more presence from Tizio in the coming years as the brand has been slated to become an addition to the group’s portfolio of core brands.  On 5 March 1998, the group was listed on the Second Board of Bursa Malaysia Securities Berhad (Bursa) and thereafter, transferred to the Main Board on 4 August 2004. The Main and Second Boards merged on 3 August 2009. Major shareholders of the group as at 8 July 2013 are Pang Chaun Yong with 44% and Skim Amanah Saham Bumiputera with 5.0%.