Preparing Surfaces for Effective Resin Bonding

Preparing Surfaces for Effective Resin Bonding

Types of Crack Gauges and Their Specific Applications in Monitoring Foundation Cracks

Assessing the condition of the foundation surface is a crucial step in preparing surfaces for effective resin bonding. Monitoring crack growth ensures timely repairs Crawl Space Repair Water damage. The success and longevity of a resin bond largely depend on how well the foundational surface has been evaluated and prepared. It is akin to building a house; no matter how beautiful or robust the structure above may be, if the foundation is flawed, the entire edifice is at risk.


The first task in assessing the condition of any surface intended for resin bonding is to conduct a thorough visual inspection. This involves examining the surface for any visible signs of damage, such as cracks, chips, or unevenness. These imperfections can significantly hinder adhesion by creating areas where the resin cannot fully bond with the substrate. Identifying such issues early allows for corrective measures to be taken before proceeding with bonding.


Beyond visual inspection, it's essential to understand the material composition of the surface. Different materials interact with resins in varying ways; some may provide excellent adhesion naturally, while others might require special treatments or primers to enhance bonding capability. For instance, porous surfaces like concrete can absorb resin too quickly, leading to weak bonds unless properly sealed beforehand.


Moisture content is another critical factor when assessing a surface's condition. Excess moisture can compromise resin curing processes and lead to weakening over time. Utilizing moisture meters can help determine if additional drying or dehumidification steps are necessary before application.


Surface contamination must also be addressed during assessment. Dust, oils, grease, and other contaminants act as barriers between the resin and substrate.

Preparing Surfaces for Effective Resin Bonding - drainage

  1. drainage
  2. Davidson County
  3. wall
Effective cleaning protocols should be established based on the type of contaminants present. Techniques such as solvent wiping or abrasive blasting may be employed depending on what residue needs removing.


Furthermore, understanding environmental conditions surrounding both assessment and application stages is vital. Temperature fluctuations and humidity levels can affect both preparation efforts and final bond integrity. Ensuring that these factors are controlled within recommended limits helps guarantee optimal results.


In conclusion, assessing the condition of foundation surfaces for resin bonding involves meticulous examination and understanding of various factors including physical damage, material characteristics, moisture levels, contamination presence, and environmental conditions. A comprehensive approach not only ensures that each potential issue is addressed but also establishes a solid groundwork upon which effective and durable resin bonds can form. By investing time and effort into this initial phase of preparation, one sets up subsequent stages for success-ensuring that whatever structure being supported will stand strong against time's testaments.

How Crack Gauges Enhance the Accuracy of Assessing Structural Damage —

Preparing surfaces for effective resin bonding is a critical step in ensuring strong and durable adhesion in various industrial and artistic applications. The quality of the bond largely depends on how well the bonding surface is prepared. Proper cleaning techniques are essential to remove contaminants that can interfere with the bonding process, ultimately affecting the strength and longevity of the bond.


One of the primary goals in surface preparation is to achieve a surface that is clean, dry, and free from any substances that might impede adhesion. This typically involves removing oils, dirt, grease, rust, or any other residues present on the surface. Different materials require different cleaning techniques tailored to their specific characteristics.


For metallic surfaces, one common method is abrasive blasting. This technique uses a stream of abrasive material propelled under pressure against the surface to remove any unwanted layers. It not only cleans but also roughens the surface, increasing its surface area and enhancing mechanical interlocking between the resin and substrate. Alternatively, chemical treatments such as etching with acids can be employed to achieve similar results by removing oxides and creating an ideal texture for bonding.


In contrast, non-metallic surfaces like plastics or composites may require more delicate approaches due to their sensitivity to harsh chemicals or abrasives. Solvent cleaning is often used here; it involves wiping down surfaces with appropriate solvents that dissolve contaminants without damaging the underlying material. Ensuring complete evaporation of these solvents before proceeding with resin application is crucial to avoid weakening the bond.


Another important consideration in preparing surfaces for optimal bonding is ensuring they are free from moisture. Moisture trapped at the interface can lead to weakened bonds over time due to hydrolysis or freeze-thaw cycles in certain environments. Techniques such as drying through heat treatment or using desiccants ensure that surfaces remain dry prior to resin application.


A newer approach gaining traction involves plasma treatment-an advanced method where ionized gases are used to clean and activate surfaces at a molecular level without affecting bulk properties. This treatment modifies surface energy characteristics, rendering them more receptive to adhesive resins without physical abrasion or chemical use.


Ultimately, selecting the right cleaning technique requires understanding both the nature of contaminants present and the properties of materials involved in bonding. A well-prepared surface ensures optimal wetting and penetration of adhesives into micro-crevices on substrates-a requisite for forming robust bonds capable of enduring stress over time.


In conclusion, meticulous attention to cleaning techniques during preparation significantly impacts overall effectiveness when working with resin bonding systems across diverse fields-from manufacturing industries seeking reliable assembly processes all way through crafting intricate art pieces demanding precision workmanship-a testament not only science behind but also artistry involved perfecting this delicate balance between structure function aesthetic appeal alike!

How Seasonal Changes Impact Foundation Stability

 How Seasonal Changes Impact Foundation Stability

Seasonal changes can have a profound impact on the stability of building foundations.. As the Earth's climate fluctuates between wet and dry seasons, these variations can lead to significant shifts in soil composition and structure, resulting in potential damage to foundational systems.

Posted by on 2024-12-31

Identifying Soil Settlement as a Major Cause of Cracks

 Identifying Soil Settlement as a Major Cause of Cracks

Soil settlement is a natural geological process that can have significant implications for structures built on or within the earth.. As buildings and other structures are erected, the weight of these constructions can cause the underlying soil to compact and shift, leading to what experts refer to as soil settlement.

Posted by on 2024-12-31

Step-by-Step Guide to Installing Crack Gauges on Foundation Cracks

Preparing surfaces for effective resin bonding is a crucial step in ensuring the durability and performance of bonded structures. The presence of contaminants and debris can significantly compromise the integrity of the bond, leading to potential failures or reduced lifespan of the composite material. Therefore, adopting effective methods for removing these impurities is essential.




Preparing Surfaces for Effective Resin Bonding - wall

  1. home inspection
  2. crawl space
  3. company

One fundamental technique for surface preparation is mechanical cleaning. This method involves physically abrading the surface to remove loose particles, dust, and other contaminants. Sanding or grinding can be employed to create a clean, roughened surface that enhances mechanical adhesion properties. However, it's important to select appropriate abrasives that match the material type to avoid unintended damage.


Chemical cleaning is another widely used approach that involves applying specific solvents or chemical solutions to dissolve and wash away surface contaminants such as oils, greases, or oxides. Acetone or alcohol-based cleaners are commonly used due to their effectiveness in breaking down organic substances without leaving residues that could interfere with resin bonding.


In addition to mechanical and chemical methods, ultrasonic cleaning offers an advanced alternative for delicate surfaces. This technique utilizes high-frequency sound waves in a liquid medium to agitate particles and debris from the substrate efficiently without abrasive contact. It is particularly beneficial for complex geometries or sensitive materials where traditional abrasive methods might prove detrimental.


Plasma treatment represents a more sophisticated approach by using ionized gas at low pressures to clean and activate surfaces at a molecular level. This method not only removes contaminants but also modifies surface energy characteristics, promoting superior adhesion between the resin and substrate.


Lastly, laser ablation provides a precise non-contact option for removing coatings or debris through concentrated light energy pulses which evaporate unwanted layers without affecting underlying structures.


Each of these methods has its advantages depending on factors such as material type, contamination level, and required bond strength. Selecting an appropriate combination ensures optimal preparation of surfaces for effective resin bonding while minimizing potential risks associated with inadequate cleaning processes.

Step-by-Step Guide to Installing Crack Gauges on Foundation Cracks

Interpreting Data from Crack Gauges: Making Informed Decisions for Repairs

In the realm of construction and materials science, the art of resin bonding holds a pivotal place. It is an indispensable technique used in numerous applications, from woodworking to advanced composites. However, the success of resin bonding hinges significantly on one often overlooked yet critical aspect: surface moisture control. Understanding and managing surface moisture is essential for ensuring strong, durable bonds that stand the test of time.


When preparing surfaces for effective resin bonding, controlling surface moisture cannot be overstated. Moisture acts as an adversary in this process due to its ability to interfere with the adhesion mechanisms intrinsic to resins. Excessive moisture can lead to weak bonds or even complete bond failure. This happens because water molecules can form intermediate layers between the adhesive and substrate, preventing proper contact and interaction necessary for a robust bond.


To achieve optimal results in resin bonding, it is crucial first to assess the environmental conditions and substrate characteristics. Materials like wood are notoriously hygroscopic, meaning they absorb atmospheric moisture readily.

Preparing Surfaces for Effective Resin Bonding - wall

  1. music hall
  2. carbon
  3. erosion
This inherent property necessitates stringent measures in maintaining appropriate humidity levels before applying any adhesive. Employing techniques such as preconditioning substrates in controlled environments or utilizing moisture barriers can mitigate these risks effectively.


Moreover, the type of resin used plays a significant role in determining how much attention needs to be paid to moisture control. Epoxy resins, known for their versatility and strength, generally exhibit better tolerance towards moderate levels of surface moisture compared to other types like polyurethane adhesives. Nevertheless, no matter how forgiving certain resins might be, optimal performance is achieved when surfaces are thoroughly dry.


In addition to environmental controls and substrate preparation, technological advancements offer innovative solutions for managing surface moisture during resin bonding processes. Moisture meters have become invaluable tools in assessing real-time data on substrate conditions, enabling precise adjustments where necessary.


Furthermore, education and training remain fundamental components in emphasizing the importance of surface moisture control among professionals involved in resin bonding applications. Workshops and continuous learning initiatives help instill best practices that ensure practitioners are well-versed with current techniques and technologies available for effective surface preparation.


In conclusion, recognizing the significance of surface moisture control is paramount when aiming for successful resin bonding outcomes. By acknowledging its impact on adhesion integrity and implementing appropriate strategies tailored to specific materials and environmental contexts, we pave the way towards creating enduring bonds that meet both aesthetic standards and functional requirements across various industries. As we continue advancing our understanding of material interactions at microscopic levels through research developments globally-surface moisture control will undoubtedly remain a cornerstone principle driving innovation within this field forward into future endeavors without compromise on quality or reliability standards expected today by industry leaders worldwide!

Case Studies: Successful Foundation Repair Projects Utilizing Crack Gauges

Profiling the surface for enhanced adhesion is a critical element in the process of preparing surfaces for effective resin bonding. This technique involves carefully altering the surface to maximize its ability to bond with resin materials, ensuring durability and strength in the final product.

Preparing Surfaces for Effective Resin Bonding - Davidson County

  1. steel
  2. carbon
  3. erosion
The importance of this preparatory phase cannot be understated, as it lays the foundation for successful adhesion and ultimately impacts the performance and longevity of bonded structures.


The essence of surface profiling lies in its ability to increase surface area and create an environment that promotes mechanical interlocking between the substrate and the resin. This is achieved through various methods such as abrasion, etching, or blasting, each tailored to the specific requirements of the material being prepared. By roughening or texturing the surface, these techniques enhance wettability and facilitate deeper penetration of adhesive agents into microscopic pores or irregularities.


One common method employed in profiling is mechanical abrasion. This involves using abrasive materials like sandpaper or wire brushes to physically alter the texture of a surface. The goal here is to remove any contaminants such as dust, grease, or oxidation layers that may hinder adhesion while simultaneously creating a roughened profile that enhances grip at a microscopic level.


Chemical etching offers another approach by utilizing acids or other chemical solutions to selectively erode parts of a substrate's surface. This method not only cleanses but also modifies the chemical composition at a superficial level, promoting better interaction with adhesives. Etching can be particularly advantageous when dealing with metals or glass where mechanical abrasion might prove insufficient.


For large-scale operations requiring uniformity across extensive surfaces, blasting techniques like sandblasting or bead blasting are often preferred. These involve propelling abrasive particles at high velocities against surfaces to produce consistent texturing over larger areas efficiently.


Beyond these traditional methods lies an array of advanced technologies designed specifically for niche applications-laser ablation being one example-which allows precise control over material removal without physical contact.


In all cases where profiling precedes resin bonding processes, meticulous attention must be paid not only during execution but also throughout assessment stages post-treatment; visual inspections alongside quantitative measurements (such as profilometry) ensure optimal conditions have been met before moving forward with adhesive applications.


Ultimately though it may seem laborious initially investing time into proper profiling ensures robust bonds capable enduring stresses encountered throughout their service life whether they reside within aerospace components subjected extreme conditions automotive assemblies bearing constant vibrations even everyday household items requiring longevity reliability alike


Profiling thus emerges indispensable step achieving superior quality seamless integration diverse substrates myriad environments further emphasizing necessity incorporating best practices latest innovations field consistently enhancing capabilities delivering exceptional results across industries worldwide

Limitations and Considerations When Using Crack Gauges for Foundation Issues

When it comes to preparing surfaces for effective resin bonding, one of the most critical steps is selecting appropriate primers and sealers. This choice can make a significant difference in the longevity and strength of the bond formed between the resin and the substrate. Understanding the role of primers and sealers is essential for achieving optimal results in any resin application project.


Primers serve as an intermediary layer that enhances adhesion between the substrate and the resin. They work by penetrating into microscopic pores on the surface, creating a uniform foundation for the resin to adhere to. Different substrates, such as wood, metal, or concrete, have distinct characteristics that necessitate specific types of primers. For instance, a primer used on wood must be able to penetrate deeply into its fibrous structure, while a primer for metal might need corrosion-resistant properties.


Sealers play an equally important role by providing a protective barrier that prevents contaminants from interfering with the bonding process. They help ensure that moisture, dust, or oils do not compromise the adhesive properties of the resin. Choosing an appropriate sealer depends largely on environmental factors such as humidity levels and exposure to chemicals or UV light. A well-selected sealer will not only protect but also enhance the durability of both the substrate and the applied resin.


The chemistry involved in primers and sealers also varies widely based on their intended use. Epoxy-based primers are often favored for their excellent adhesion qualities and are particularly effective on non-porous surfaces like metals or ceramics. On porous materials like wood or concrete, water-based primers are preferred due to their ease of application and ability to fill in surface irregularities without altering texture significantly.


Matching sealers with primers is another layer of complexity requiring careful consideration. Compatibility between these substances ensures that each coat works synergistically rather than against each other. Testing small areas before full-scale application can prevent unforeseen reactions or failures.


In summary, selecting appropriate primers and sealers is more than just picking items off a shelf; it's about understanding how these components interact with each other and with various substrates under different conditions. The right combination can significantly enhance adhesion strength while extending lifespan-ultimately ensuring success in any resin-bonding endeavor through meticulous surface preparation.

In law, a warranty is an expressed or implied promise or assurance of some kind. The term's meaning varies across legal subjects.[1] In property law, it refers to a covenant by the grantor of a deed.[2] In insurance law, it refers to a promise by the purchaser of an insurance about the thing or person to be insured.[3]

In contract law, a warranty is a contractual assurance given, typically, by a seller to a buyer,[4] for example confirming that the seller is the owner of the property being sold.[5] A warranty is a term of a contract, but not usually a condition of the contract or an innominate term, meaning that it is a term "not going to the root of the contract",[6] and therefore only entitles the innocent party to damages if it is breached,[6] i.e. if the warranty is not true or the defaulting party does not perform the contract in accordance with the terms of the warranty. A warranty is not a guarantee: it is a mere promise. It may be enforced if it is breached by an award for the legal remedy of damages.

Depending on the terms of the contract, a product warranty may cover a product such that a manufacturer provides a warranty to a consumer with whom the manufacturer has no direct contractual relationship because it is purchased via an intermediary.

A warranty may be express or implied. An express warranty is expressly stated (typically, written); whether or not a term will be implied into a contract depends on the particular contract law of the country in question. Warranties may also state that a particular fact is true at a point in time, or that the fact will continue into the future (a "continuing warranty").

Express warranty

[edit]
Main article: Express warranties

Express warranties are created when the seller makes a guarantee to the buyer that the product or service being offered has certain qualities. For there to exist an express warranty, a statement regarding the product or service must be made to the buyer and the statement must play a role in the buyer's decision to purchase the product or service. If, after purchase, the buyer feels that the given statement was a misrepresentation of the actual product or service, the buyer can file for breach of express warranty.[7]

Implied warranty

[edit]
Main article: Implied warranty

Implied warranties are unwritten promises that arise from the nature of the transaction, and the inherent understanding by the buyer, rather than from the express representations of the seller.

Sale of goods

[edit]
Main article: Sale of goods

Warranties provided in the sale of goods (tangible products) vary according to jurisdiction, but commonly new goods are sold with implied warranty that the goods are as advertised. Used products, however, may be sold "as is" with no warranties. Each country, however, defines its own parameters with regard to implied conditions or implied warranties. The rules regarding warranties are largely standardised; i.e., the concepts of offer, acceptance, consideration, capacity to contract and intention to create legal relations. Those are the five elements to create a legally binding contract in the United States (all 50 states), England and Wales, Scotland and Northern Ireland, each of the seven states of Australia, and all other common law countries. Countries with civil law systems, however, recognise legally binding contracts which are not supported by consideration.[citation needed]

United States

[edit]

In the United States, various laws apply, including provisions in the Uniform Commercial Code which provide for implied warranties.[8] However, these implied warranties were often limited by disclaimers. In 1975 the Magnuson–Moss Warranty Act was passed to strengthen warranties on consumer goods.[9] Among other things, under the law implied warranties cannot be disclaimed if an express warranty is offered, and attorney fees may be recovered.[9] In some states, statutory warranties are required on new home construction, and "lemon laws" apply to motor vehicles.

Article 2 of the Uniform Commercial Code, which has been adopted with variations in each state, provides that the following two warranties are implied unless they are explicitly disclaimed (such as an "as is" statement):

  • The warranty of merchantability is implied unless expressly disclaimed by name, or the sale is identified with the phrase "as is" or "with all faults." To be "merchantable", the goods must reasonably conform to an ordinary buyer's expectations. For example, a fruit that looks and smells good but has hidden defects may violate the warranty if its quality does not meet the standards for such fruit "as passes ordinarily in the trade". In most states, products inherently come with implied warranty of merchantability; however, in states like Massachusetts under consumer protection law, it is illegal to disclaim this warranty on household goods sold to consumers. (Massachusetts General Laws, Chapter 106: Section 2-316A)
  • The warranty of fitness for a particular purpose is implied unless disclaimed when a buyer relies upon the seller to select the goods to fit a specific request. For example, this warranty is violated when a buyer asks a mechanic to provide tires for use on snowy roads and receives tires that are unsafe to use in snow.

Defects In Materials and Workmanship

[edit]

A common kind of warranty on goods is a warranty that the product is free from material defects in materials and workmanship. This simply promises that the manufacturer properly constructed the product, out of proper materials. This implies that the product is not defective for the purposes for which it was made.

Warranties may be time limited, thus limiting the time the buyer has to make a claim for breach of warranty. For example, a typical 90-day warranty on a television gives the buyer 90 days from the date of purchase to claim that the television was improperly constructed. Should the television fail after 91 days of normal usage, which because televisions customarily last longer than 91 days means there was a defect in the materials or workmanship of the television, the buyer nonetheless may not collect on the warranty because it is too late to file a claim. Consumer protection laws implemented by statute, however, provide additional remedies as it is not usually expected that a television will last for only 90 days.

Time-limited warranties are often confused with performance warranties. A 90-day performance warranty would promise that the television would work for 90 days, which is fundamentally different from promising that it was delivered free of defects and limiting the time the buyer has to prove otherwise. But because the usual evidence that a product was delivered defective is that it later breaks, the effect is very similar.

One situation in which the effect of a time-limited warranty is different from the effect of a performance warranty is where the time limit exceeds a normal lifetime of the product. If a coat is designed to last two years, but has a 10-year limited warranty against defects in materials and workmanship, a buyer who wears the coat for 3 years and then finds it worn out would not be able to collect on the warranty. But it is different from a 2-year warranty because if the buyer starts wearing the coat 5 years after buying it, and finds it wears out a year later, the buyer would have a warranty claim in Year 6. On the other hand, a 10-year performance warranty would promise that the coat would last 10 years.

Satisfaction guarantee

[edit]

In the United States, the Magnuson–Moss Warranty Act of 1976 provides for enforcement of a satisfaction guarantee warranty. In these cases, the advertiser must refund the full purchase price regardless of the reason for dissatisfaction.[10]

Lifetime warranty

[edit]

A lifetime warranty is usually a warranty against defects in materials and workmanship that has no time limit to make a claim, rather than a warranty that the product will perform for the lifetime of the buyer.[11] The actual time that product can be expected to perform is normally determined by the custom for products of its kind used the way the buyer uses it.

If a product has been discontinued and is no longer available, the warranty may last a limited period longer. For example:

  • the Cisco Limited Lifetime Warranty currently lasts for five years after the product has been discontinued, but only if you know where you bought it from as the seller is responsible for administering it.[12]
  • HP Networking product lifetime warranties last for as long as one owns the product.[13]

Limited warranty

[edit]

A warranty may be limited in duration (as above) and/or in scope. In Avrora Fine Arts v Christie, Manson and Woods (a UK High Court case), the auctioneers had issued a "limited warranty" that a certain painting sold at auction had been painted by the Russian painter Boris Kustodiev, which experts subsequently stated was not the case. The sale was cancelled and the buyer was reimbursed, but further claims of negligence and misrepresentation were denied because they fell outside the warranty's scope.[14]

Breach of warranty

[edit]

Warranties are breached when the promise is not performed at all, or not performed in accordance with the contract. The seller may honor the warranty by making a refund or a replacement. The statute of limitations depends on the jurisdiction and contractual agreements. In the United States, the Uniform Commercial Code § 2-725 provides for a four-year time limit, which can be limited to one year by contract, starting from the date of delivery or if future performance is guaranteed from the date of discovery. Refusing to honor the warranty may be an unfair business practice. In the United States, breach of warranty lawsuits may be distinct from revocation of contract suits; in the case of the breach of warranty, the buyer's item is repaired or replaced while breach of contract involves returning the item to the seller.[15]

Warranty label on top of a hard disk
Warranty label on top of a hard disk
Warranty label lifted. The word "VOID" is shown multiple times
Warranty label lifted. The word "VOID" is shown multiple times.

Some warranties require that repairs be undertaken by an authorized service provider. In such cases, service by non-authorized personnel or company may void (nullify) the warranty. However, according to the Magnuson-Moss Act (a U.S. Federal law that governs warranties, which was passed in 1975), if the warranty does not provide full or partial payment of labor (to repair the device or system), it is the owner's choice who will provide the labor, including the possibility of DIY ("Do It Yourself") repairs, in which case the device or system owner will pay zero dollars for labor, yet the company that provided the warranty must still provide all the parts needed for the repair at absolutely no charge to the owner.

If the defective product causes injury, this may be a cause of action for a product liability lawsuit (tort). Strict liability may be applied.

Extended warranty

[edit]

In addition to standard warranties on new items, third parties or manufacturers may sell or offer extended warranties (also called service contracts).[16] These extend the warranty for a further length of time. However, these warranties have terms and conditions which may not match the original terms and conditions. For example, these may not cover anything other than mechanical failure from normal usage. Exclusions may include commercial use, "acts of God", owner abuse, and malicious destruction. They may also exclude parts that normally wear out such as tires and lubrication on a vehicle.

These types of warranties are provided for various products, but automobiles and electronics are common examples. Warranties which are sold through retailers such as Best Buy may include significant commission for the retailer as a result of reverse competition.[17] For instance, an auto warranty from a car dealership may be subcontracted and vehicle repairs may be at a lower rate which could compromise the quality of service. At the time of repair, out-of-pocket expenses may be charged for unexpected services provided outside of the warranty terms or uncovered parts. Extended Warranties are mostly back to back underwritten by underwriters, who are the actual bearer of the risk.

Representations versus warranties

[edit]
Further information: Misrepresentation

Statements of fact in a contract or in obtaining the contract are considered to be either warranties or representations. Traditionally, warranties are factual promises which are enforced through a contract legal action, regardless of materiality, intent, or reliance.[18] Representations are traditionally *pre*contractual statements which allow for a tort-based action if the misrepresentation is innocent, negligent or fraudulent.[19] In U.S. law, the distinction between the two is somewhat unclear;[18] warranties are viewed as primarily contract-based legal action while negligent or fraudulent misrepresentations are tort-based, but there is a confusing mix of case law in the United States.[18] In modern English law, sellers often avoid using the term 'represents' in order to avoid claims under the Misrepresentation Act 1967 (although English law will look to the substance rather than the form of the representation to decide what it is), while in America 'warrants and represents' is relatively common.[20] Some modern commentators suggest avoiding the words and substituting 'state' or 'agree', and some model forms do not use the words;[19] however, others disagree.[21]

Product types

[edit]

Appliance warranty

[edit]

Canada and United States

[edit]

Written warranties on new major appliances, such as refrigerators, kitchen stoves and dishwashers, usually cover the cost of parts and labor to repair defects in materials or workmanship which appear under normal home use.

Warranties often cover defects up to a year after purchase or delivery.[22] However some exclude new owners when a house or appliance is sold within the year (Frigidaire,[23] LG,[24] Samsung[25]). Others do let warranties transfer to new buyers (Amana,[26] General Electric,[27] Whirlpool). Some manufacturers cover refrigerators' sealed parts (compressors, tubing, etc.) for five years (General Electric,[27] Samsung,[28] Whirlpool)[25] or seven years (LG[24]) or ten years (KitchenAid[29]).

Warranties on water heaters cover parts for 5 to 12 years in single family residences, one year otherwise. They do not cover new owners when a house or heater is sold; nor do they cover the original owner if the heater is moved to a second location.[30][31][32][33][34] Tank models from A. O. Smith do not allow heating elements to be replaced with lower (or higher) wattages, and do not cover renter-occupied single family. They end if the unit is flooded or ever uses desalinated or deionized water, such as municipal desalination plants or reverse osmosis filters.[32][33] Smith's tank models for manufactured housing do not provide coverage if a whirlpool or hot tub is connected.[33]

Tank water heater warranties exclude labor, liability for water damage, and shipping cost to return the old heater or parts. Tankless warranties do not exclude water damage; they cover labor for a year, and Ruud/Rheem covers return shipping on tankless models.[31][34] Smith's tankless water heaters do not restrict coverage to a single family, and require professional installation.[34]

Implied warranties under US law could extend for longer periods. However, most states allow the written warranties to include clauses which limit these implied warranties to the same time period as the written warranty.[35]

Car warranty

[edit]

United States

[edit]

New car factory warranties commonly range from one year to five years and in some cases extend even 10 years, with typically a mileage limit as well. Car warranties can be extended by the manufacturer or other companies with a renewal fee.

Used car warranties are usually 3 months and 3,000 miles.

United Kingdom

[edit]

In the United Kingdom, types of warranties have been classified as either an:

  1. original manufacturer warranty,
  2. insurance warranty underwritten and regulated as insurance or
  3. obligor warranty, typically written by a car dealership or garage.

In the United Kingdom, the Financial Conduct Authority (FCA), which began to regulate insurance contracts in this context in 2005, determined that additional warranties sold by car dealerships are "unlikely to be insurance".[36] Insurance warranties may offer greater protection to the consumer.

Home Warranty

[edit]
Main article: Home warranty

A home warranty protects against the costs of home and appliance repair by offering home warranty coverage for houses, townhomes, condominiums, mobile homes, and new construction homes. When a problem occurs with a covered appliance or mechanical system such as an air conditioning unit or furnace, a service technician repairs or replaces it. The homeowner may have to pay for a service call fee and the home warranty company pays the balance for the repair or replacement of the covered item.

Intellectual property right warranty

[edit]

An intellectual property right (IPR) warranty provides contractual protection against breach of rights in software development and other fields where IPR is protected. Increasing reluctance on the part of suppliers to offer an IPR warranty or indemnity has been noted in recent years.[37]

Warranty data

[edit]

Warranty data consists of claims data and supplementary data. Claims data are the data collected during the servicing of claims under warranty and supplementary data are additional data such as production and marketing data.[38] This data can help determine product reliability and plan for future modifications.[38]

See also

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  • Business law
  • Collateral TORT
  • Consumer protection
  • Due diligence
  • Extended warranty
  • Magnuson-Moss Warranty Act
  • Surety
  • Warranty deed
  • Warranty tolling

References

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  1. ^ Gilmore, Grant; Black, Jr., Charles L. (1975). The Law of Admiralty. Foundation Press. p. 63. ISBN 0882774093.
  2. ^ Black's Law Dictionary (15 ed.). Thomson Reuters West. 2015. p. 1344. ISBN 9780314642721.
  3. ^ Black's Law Dictionary (15 ed.). Thomson Reuters West. 2015. p. 1345. ISBN 9780314642721.
  4. ^ Gordons Partnership Solicitors, Guarantees, Warranties and Indemnities – Spot the Difference, accessed 2 February 2023
  5. ^ Johnson, M., Warranties in share purchase agreements, Rocket Lawyer, accessed 2 February 2023
  6. ^ a b Hogg M. (2011). Promises and Contract Law: Comparative Perspectives, p. 48, Cambridge University Press.
  7. ^ Bagley, Constance; Dauchy, Craig (2018). The Entrepreneur's Guide to Law and Strategy (Fifth ed.). Boston, MA: Cengage Learning, Inc. pp. 313–315. ISBN 978-1-285-42849-9.
  8. ^ Warranties in Sales of Goods. LexisNexis Study Outlines.
  9. ^ a b 12 Reasons to Love the Magnuson-Moss Act. Journal of Texas Consumer Law. Reprinted with permission from the National Consumer Law Center.
  10. ^ Andreoni J. (2005). Trust, Reciprocity, and Contract Enforcement: Experiments on Satisfaction Guaranteed.
  11. ^ Lifetime Warranties. Warranty Week. WebCite Archive.
  12. ^ "Cisco Limited Lifetime Hardware Warranty Terms". Retrieved 2008-09-10.
  13. ^ "HP Networking warranty information". Retrieved 2011-08-26.
  14. ^ Maitland Chambers, AVRORA FINE ARTS INVESTMENT LTD V CHRISTIE, MANSON & WOODS LTD (2012), accessed 23 December 2022
  15. ^ Davis T. (2009). UCC Breach of Warranty and Contract Claims: Clarifying the Distinction. Baylor Law Review.
  16. ^ "Appliances - 247 Home Rescue". 247 Home Rescue. Retrieved 26 June 2015.
  17. ^ Baker T, Siegelman P. (2013). Protecting Consumers from Add-On Insurance Products: New Lessons for Insurance Regulation.
  18. ^ a b c West G D, Lewis W B. (2009). Contracting to Avoid Extra-Contractual Liability—Can Your Contractual Deal Ever Really Be the "Entire" Deal? The Business Lawyer.
  19. ^ a b Primack MA. (2009), and it was relied upon by a party to enter into the contract. Representations, Warranties and Covenants: Back to the Basics in Contracts, and do not form part of the contract. National Law Review.
  20. ^ Ferara L N, Philips J, Runnicles J. (2007). Some Differences in Law and Practice Between U.K. and U.S. Stock Purchase Agreements Archived 2013-05-14 at the Wayback Machine. Jones Day Publications.
  21. ^ Telman J. (2012). Representations and Warranties. ContractsProf Blog.
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[edit]
  • Federal Trade Commission: Warranty Information (United States)

 

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Navy Pier

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Driving Directions in Cook County

Driving Directions From Red Roof PLUS+ Chicago - Hoffman Estates to United Structural Systems of Illinois, Inc
Driving Directions From Hoffman Estates Park District to United Structural Systems of Illinois, Inc
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Driving Directions From Suburban Associates in Ophthalmology to United Structural Systems of Illinois, Inc
Driving Directions From AMC South Barrington 24 to United Structural Systems of Illinois, Inc

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Driving Directions From Navy Pier to United Structural Systems of Illinois, Inc
Driving Directions From Navy Pier to United Structural Systems of Illinois, Inc
Driving Directions From Navy Pier to United Structural Systems of Illinois, Inc
Driving Directions From Navy Pier to United Structural Systems of Illinois, Inc
Driving Directions From Navy Pier to United Structural Systems of Illinois, Inc
Driving Directions From Navy Pier to United Structural Systems of Illinois, Inc

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Reviews for United Structural Systems of Illinois, Inc

United Structural Systems of Illinois, Inc

Paul Gunderlock

(4)

The staff was helpful, very nice and easy to work with and completed the work timely and cleaned up well. Communications faltered a bit at times and there was an email communications glitch which was no fault of anyone, but no big deal and all ended up fine. We sure feel better to have this done and hope that is the end of our structural issues. It does seem like (after talking to several related companies), that it would be great if some of these related companies had a structural engineer on staff vs using on the job expertise gained over years - which is definitely valuable! But leaves a bit of uncertainty - and probably saves money for both sides may be the trade-off? So far, so good though! Thank you.

United Structural Systems of Illinois, Inc

Sarah McNeily

(5)

USS was excellent. They are honest, straightforward, trustworthy, and conscientious. They thoughtfully removed the flowers and flower bulbs to dig where they needed in the yard, replanted said flowers and spread the extra dirt to fill in an area of the yard. We've had other services from different companies and our yard was really a mess after. They kept the job site meticulously clean. The crew was on time and friendly. I'd recommend them any day! Thanks to Jessie and crew.

United Structural Systems of Illinois, Inc

Jim de Leon

(5)

It was a pleasure to work with Rick and his crew. From the beginning, Rick listened to my concerns and what I wished to accomplish. Out of the 6 contractors that quoted the project, Rick seemed the MOST willing to accommodate my wishes. His pricing was definitely more than fair as well. I had 10 push piers installed to stabilize and lift an addition of my house. The project commenced at the date that Rick had disclosed initially and it was completed within the same time period expected (based on Rick's original assessment). The crew was well informed, courteous, and hard working. They were not loud (even while equipment was being utilized) and were well spoken. My neighbors were very impressed on how polite they were when they entered / exited my property (saying hello or good morning each day when they crossed paths). You can tell they care about the customer concerns. They ensured that the property would be put back as clean as possible by placing MANY sheets of plywood down prior to excavating. They compacted the dirt back in the holes extremely well to avoid large stock piles of soils. All the while, the main office was calling me to discuss updates and expectations of completion. They provided waivers of lien, certificates of insurance, properly acquired permits, and JULIE locates. From a construction background, I can tell you that I did not see any flaws in the way they operated and this an extremely professional company. The pictures attached show the push piers added to the foundation (pictures 1, 2 & 3), the amount of excavation (picture 4), and the restoration after dirt was placed back in the pits and compacted (pictures 5, 6 & 7). Please notice that they also sealed two large cracks and steel plated these cracks from expanding further (which you can see under my sliding glass door). I, as well as my wife, are extremely happy that we chose United Structural Systems for our contractor. I would happily tell any of my friends and family to use this contractor should the opportunity arise!

United Structural Systems of Illinois, Inc

Chris Abplanalp

(5)

USS did an amazing job on my underpinning on my house, they were also very courteous to the proximity of my property line next to my neighbor. They kept things in order with all the dirt/mud they had to excavate. They were done exactly in the timeframe they indicated, and the contract was very details oriented with drawings of what would be done. Only thing that would have been nice, is they left my concrete a little muddy with boot prints but again, all-in-all a great job

United Structural Systems of Illinois, Inc

Dave Kari

(5)

What a fantastic experience! Owner Rick Thomas is a trustworthy professional. Nick and the crew are hard working, knowledgeable and experienced. I interviewed every company in the area, big and small. A homeowner never wants to hear that they have foundation issues. Out of every company, I trusted USS the most, and it paid off in the end. Highly recommend.

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Frequently Asked Questions

The surface should be thoroughly cleaned by removing any loose debris, dirt, oil, or grease using a wire brush or pressure washer. After cleaning, ensure the surface is dry before proceeding with resin application.
To ensure effective bonding, roughen up smooth surfaces using sandpaper or a grinder to create a texture that allows better adhesion. This step enhances mechanical interlocking between the resin and the substrate.
Yes, ideal conditions include temperatures between 50°F and 85°F (10°C to 30°C) and low humidity levels. These conditions prevent premature curing or moisture interference during the application process.
If cracks are damp, use a blow dryer or heat gun to thoroughly dry them. Applying a moisture-tolerant primer can also help improve adhesion in slightly damp conditions. Ensure no active water leaks are present before starting your repair work.