This refers to a specific type of cordage, typically made of nylon or similar synthetic materials, available for purchase at a major home improvement retailer. The “36” likely denotes the product’s tensile strength in pounds, indicating its load-bearing capacity. An example of its use would be securing tarpaulins, creating tie-downs, or for general utility purposes where a strong and reliable cord is needed.
Its importance lies in its versatility and availability. It provides a relatively inexpensive and easily accessible solution for various tasks requiring a strong, durable cord. Historically, similar cordage materials, though often of natural fiber construction, have served essential roles in construction, agriculture, and everyday life for binding, securing, and creating temporary structures.
The following discussion will delve into specific applications, performance characteristics, and alternative products available alongside this particular cordage option. Further analysis will explore appropriate usage guidelines and safety considerations to ensure effective and responsible application of this type of material.
1. Tensile Strength
Tensile strength represents the maximum stress a material can withstand while being stretched or pulled before breaking. In the context of this cordage, the “36” in the product description likely indicates a tensile strength of 36 pounds. This figure is a critical determinant of the cord’s suitability for various applications. A higher tensile strength allows the cord to bear heavier loads without failing. Conversely, a lower tensile strength necessitates careful consideration of the load being applied to avoid breakage. The tensile strength is a fundamental characteristic influencing the safe and effective utilization of the product.
For example, a 36-pound tensile strength cord is generally adequate for securing lightweight tarps, creating simple tie-downs for small items, or general crafting purposes. However, it is inadequate for lifting heavy objects, securing large or heavy loads, or any application where failure could result in injury or property damage. Misunderstanding the tensile strength can lead to dangerous situations. A rope used to hoist equipment on a construction site requires a significantly higher tensile strength than this cordage provides.
In summary, the tensile strength denoted by the “36” is a key specification defining the cordage’s load-bearing capability. Its practical significance lies in informing users about the safe working load and limitations of the product. Adherence to these limitations is paramount to prevent accidents and ensure the cordage is used appropriately for its intended purpose. Further investigation into specific applications and safety guidelines is essential for responsible product utilization.
2. Material Composition
The material composition of cordage marketed as “36 bank line home depot” directly influences its performance characteristics and suitability for various applications. Typically, such cordage is manufactured from synthetic materials, most commonly nylon or polypropylene. This selection stems from these materials’ inherent strength-to-weight ratio, resistance to degradation from moisture, and relative cost-effectiveness. The specific material employed significantly impacts the cord’s tensile strength, knot strength, UV resistance, and abrasion resistance, all critical parameters for determining its utility.
For instance, nylon offers superior tensile strength and abrasion resistance compared to polypropylene. However, polypropylene exhibits better resistance to chemical degradation and lower density, causing it to float. Therefore, the choice of material hinges on the intended application. If the cordage is intended for marine use or exposure to harsh chemicals, polypropylene may be preferable despite its lower tensile strength. Conversely, for applications requiring high strength and abrasion resistance, nylon would be the superior choice. The manufacturer’s material selection is a fundamental determinant of the cord’s capabilities and limitations.
Understanding the material composition of “36 bank line home depot” cordage is crucial for selecting the appropriate product for a given task. Failure to consider this factor can lead to premature failure of the cordage, potentially resulting in property damage or personal injury. Careful evaluation of the material properties, coupled with an understanding of the intended use case, ensures safe and effective utilization of the product. Further considerations include proper storage to minimize degradation and adherence to recommended safe working loads.
3. Available Lengths
The available lengths in which “36 bank line home depot” is offered directly impact its practicality and utility for various applications. The accessibility of different lengths allows users to select the most appropriate quantity for their specific needs, minimizing waste and optimizing cost-effectiveness. Consideration of available lengths is paramount in ensuring efficient project execution and responsible resource utilization.
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Project Scalability
Available lengths dictate the scope of projects for which the cordage is suitable. Shorter lengths are ideal for small, localized tasks such as crafting or minor repairs. Conversely, longer lengths facilitate larger-scale projects requiring extensive cordage, such as securing tarpaulins over significant areas or creating complex tie-down systems. The availability of diverse lengths enables project scalability, adapting to varying demands.
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Waste Minimization
Offering “36 bank line home depot” in multiple lengths reduces the likelihood of excess cordage remaining after project completion. Purchasing only the necessary length minimizes material waste and associated disposal costs. This practice aligns with environmentally conscious principles, promoting responsible consumption and resource management within the home improvement sector. It also reduces clutter and storage needs for unused materials.
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Cost Optimization
Different available lengths often correspond to varying price points. Consumers can optimize costs by purchasing only the length required for their project, avoiding unnecessary expenditure on excess material. This approach promotes budget-conscious purchasing decisions, allowing for efficient allocation of resources across various home improvement endeavors. Volume discounts on longer lengths may also influence purchasing decisions for larger projects.
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Storage Considerations
The available length influences storage requirements. Smaller lengths are easily stored in compact spaces, whereas larger lengths may necessitate dedicated storage solutions. Consumers must consider their available storage capacity when selecting the appropriate length of “36 bank line home depot” to ensure proper organization and prevent damage to the cordage over time. Proper storage prolongs the lifespan of the cordage and ensures its readiness for future use.
In conclusion, the available lengths of “36 bank line home depot” are a critical factor influencing its utility, cost-effectiveness, and suitability for a range of applications. Consideration of project scope, waste minimization, cost optimization, and storage requirements informs the selection of the appropriate length, ensuring efficient project execution and responsible resource management. The availability of diverse lengths empowers consumers to tailor their purchases to their specific needs, maximizing value and minimizing environmental impact.
4. Knot Strength
Knot strength is a critical performance parameter directly influencing the safe and effective utilization of “36 bank line home depot.” It quantifies the ability of the cordage to maintain its structural integrity when tied into a knot. The tensile strength rating, nominally 36 pounds, applies to the cord’s straight, unknotted form. When a knot is introduced, the cordage’s effective strength is reduced due to stress concentration at the knot’s bends and constrictions. The percentage of original tensile strength retained after tying a knot determines the knot strength. A lower knot strength signifies a greater reduction in the cordage’s load-bearing capacity. Knot type significantly impacts this reduction, with some knots inherently weaker than others. Consequently, proper knot selection and execution are paramount when utilizing this cordage.
For instance, a square knot, commonly used for joining two ropes, is known to be unreliable under load and can easily slip or untie, severely compromising the cordage’s functionality. A bowline knot, conversely, creates a secure loop with relatively high knot strength, making it suitable for applications requiring a reliable connection point. The material composition of the cordage also affects knot strength. Slippery synthetic materials, such as polypropylene, may require specialized knots designed to prevent slippage. Furthermore, improper knot tying, such as overtightening or creating sharp bends, can introduce weaknesses that further reduce the cordage’s effective strength. Real-world applications, such as securing a load to a vehicle, necessitate careful consideration of knot strength to prevent load shifting or failure during transport.
In summary, knot strength represents a vital consideration when using “36 bank line home depot”. It necessitates an understanding of various knot types, their respective strengths, and the material properties of the cordage. Failure to account for knot strength can lead to underestimation of the cordage’s actual load-bearing capacity, potentially resulting in accidents or property damage. While “36 bank line home depot” offers utility for light-duty tasks, its limitations concerning knot strength must be recognized and mitigated through proper knot selection, tying technique, and cautious application. Further research into specific knot strengths and material behavior is encouraged for informed and safe usage.
5. UV Resistance
Ultraviolet (UV) radiation from sunlight poses a significant threat to the long-term integrity of synthetic materials commonly used in cordage like “36 bank line home depot”. Prolonged exposure to UV radiation causes photodegradation, a process where the polymer chains within the cordage break down, leading to a reduction in tensile strength, increased brittleness, and discoloration. This degradation directly impacts the cordage’s ability to perform its intended function safely and reliably. The extent of UV degradation depends on the specific material composition; some polymers exhibit greater inherent resistance than others. For instance, polypropylene is generally more susceptible to UV degradation than nylon. The presence or absence of UV inhibitors within the cordage’s formulation also plays a crucial role in mitigating the damaging effects of sunlight. Without adequate UV protection, “36 bank line home depot” used in outdoor applications will experience a diminished lifespan and an increased risk of failure.
The practical implications of UV degradation are considerable. Cordage used to secure tarpaulins, create outdoor tie-downs, or support plants in a garden setting is continuously exposed to sunlight. Over time, the cordage may become weakened to the point where it can no longer withstand the intended load, potentially leading to property damage or injury. Consider the example of cordage used to secure a construction tarp. If the cordage degrades due to UV exposure, the tarp may become dislodged during inclement weather, creating a safety hazard and exposing construction materials to the elements. Furthermore, repeated exposure to UV light can cause the cordage to fray and become rough, potentially causing skin irritation or discomfort during handling. Therefore, assessing and understanding the UV resistance of cordage is paramount when selecting materials for outdoor use.
In conclusion, UV resistance is a critical characteristic to consider when evaluating the suitability of “36 bank line home depot” for outdoor applications. Photodegradation caused by UV radiation can significantly compromise the cordage’s strength and durability, leading to potential safety risks and reduced lifespan. While some formulations may include UV inhibitors, users should be aware of the potential for degradation and take appropriate precautions, such as storing the cordage in a shaded location when not in use or replacing it periodically. The interplay between material composition, UV exposure, and the presence of UV inhibitors determines the long-term performance of the cordage, highlighting the importance of understanding these factors for informed decision-making.
6. Abrasion Resistance
Abrasion resistance is a key performance characteristic of cordage, directly influencing its longevity and suitability for demanding applications. For materials marketed as “36 bank line home depot,” this property dictates the cord’s ability to withstand frictional wear and tear, a common occurrence in various usage scenarios.
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Material Composition and Abrasion
The inherent abrasion resistance is primarily determined by the material composition of the cordage. Synthetic materials like nylon and polyester generally exhibit superior abrasion resistance compared to natural fibers. However, within synthetics, variations exist. Higher-denier fibers and tighter weaves contribute to increased resistance to surface wear. The specific blend or treatment applied during manufacturing further modifies this property.
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Surface Texture and Friction
The surface texture of the cordage impacts its interaction with abrasive surfaces. A smoother surface reduces friction and minimizes wear. Conversely, a rougher surface increases friction, accelerating abrasion. Contaminants such as dirt, sand, or grit trapped within the cordage’s weave exacerbate this effect, acting as abrasive agents that accelerate material degradation. Proper cleaning and maintenance practices can mitigate this issue.
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Application-Specific Considerations
The severity of abrasion depends on the intended application. Cordage used for securing cargo on rough surfaces or repeatedly dragged across abrasive materials requires higher abrasion resistance. In contrast, cordage used in static applications with minimal contact may not require the same level of protection. Selecting the appropriate cordage for the specific application ensures optimal performance and prolonged lifespan. Failure to consider this can lead to premature failure and potential safety hazards.
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Testing and Standards
Standardized testing methods quantify abrasion resistance. These tests simulate real-world wear conditions, providing a quantifiable measure of the cordage’s durability. These tests can guide consumers when selecting appropriate cordage for given applications. Adherence to industry standards ensures a baseline level of performance and reliability.
The abrasion resistance of “36 bank line home depot” is a critical factor to consider based on intended usage. Careful evaluation of the material composition, surface texture, and application-specific requirements ensures that the chosen cordage will perform reliably and withstand the rigors of its intended environment. Understanding these facets contributes to informed purchasing decisions and safe utilization of cordage in various applications.
7. Water Resistance
Water resistance is a significant performance characteristic for cordage, influencing its functionality and longevity, particularly in outdoor or marine environments. The degree to which “36 bank line home depot” resists water absorption and degradation directly affects its strength, weight, and overall usability. Understanding this property is crucial for selecting the appropriate cordage for specific applications.
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Material Hydrophobicity
The inherent hydrophobicity of the material from which “36 bank line home depot” is constructed is a primary determinant of its water resistance. Synthetic materials like polypropylene are naturally hydrophobic, repelling water and minimizing absorption. Nylon, while more durable, is more hygroscopic and tends to absorb water, leading to increased weight and potential degradation over time. The selection of the material dictates the cordage’s initial resistance to water penetration. For instance, cordage composed of polypropylene maintains its buoyancy and strength even when submerged, making it suitable for marine applications.
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Water Absorption and Strength Reduction
Water absorption directly affects the tensile strength of cordage. When materials like nylon absorb water, they swell, potentially weakening the internal structure and reducing the overall breaking strength. This strength reduction poses a safety risk in load-bearing applications. “36 bank line home depot” constructed from water-absorbent materials may experience a noticeable decrease in its rated 36-pound tensile strength when wet, necessitating careful consideration of the load limits under varying environmental conditions. A failure to account for this reduction can lead to catastrophic failure and potential harm.
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Mold and Mildew Resistance
The water resistance of cordage also impacts its susceptibility to mold and mildew growth. Materials that readily absorb water provide a conducive environment for these organisms to thrive, leading to material degradation, unpleasant odors, and potential health hazards. “36 bank line home depot” used in damp or humid environments requires inherent or applied resistance to mold and mildew. Untreated cordage may become compromised over time, requiring frequent replacement. The application of antifungal treatments during manufacturing can enhance resistance to these biological threats, prolonging the cordage’s useful life.
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Dimensional Stability
Water absorption can lead to dimensional changes in cordage. Materials like nylon may shrink or stretch when exposed to water, altering the cordage’s length and affecting its performance in applications requiring precise dimensions. This dimensional instability poses challenges in applications where consistent length or tension is critical. “36 bank line home depot” that exhibits minimal dimensional change when wet maintains its intended function more reliably. The selection of materials with low water absorption characteristics minimizes these dimensional variations, ensuring consistent performance under wet or humid conditions.
In summary, water resistance is a multifaceted property that significantly impacts the performance and longevity of “36 bank line home depot.” The material’s hydrophobicity, the impact of water absorption on strength, resistance to mold and mildew, and dimensional stability all contribute to its overall suitability for specific applications. Consideration of these factors is essential for ensuring safe and effective utilization of the cordage in diverse environments. Further investigation into specific material properties and environmental conditions is recommended for informed decision-making.
8. Cost-Effectiveness
The cost-effectiveness of “36 bank line home depot” is a primary factor driving its widespread adoption for various light-duty applications. Its accessibility and affordability position it as a viable solution for tasks where high-performance cordage is not strictly necessary, balancing utility with budgetary considerations.
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Material Cost and Production
The synthetic materials used in “36 bank line home depot,” typically nylon or polypropylene, are relatively inexpensive to produce. This lower material cost, coupled with efficient manufacturing processes, contributes to its overall affordability. Compared to natural fiber ropes or specialized high-strength cordage, the raw material expenses are significantly reduced, translating to lower retail prices. This is reflected in its availability in bulk quantities at relatively low cost, making it accessible to a wider consumer base.
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Lifespan and Replacement Frequency
While “36 bank line home depot” offers initial cost savings, its lifespan under demanding conditions may be shorter than that of more robust alternatives. Factors such as UV exposure, abrasion, and repeated stress can lead to degradation and necessitate more frequent replacement. The long-term cost-effectiveness, therefore, depends on the specific application and environmental factors. For intermittent or light-duty use, the initial cost advantage may outweigh the shorter lifespan; however, for continuous or heavy-duty use, the increased replacement frequency can erode the initial cost savings.
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Versatility and Multiple Applications
The versatility of “36 bank line home depot” enhances its cost-effectiveness by enabling its use in various applications. From securing lightweight tarpaulins to crafting simple tie-downs and general utility tasks, its adaptability reduces the need for specialized cordage for each individual task. This versatility streamlines purchasing decisions and reduces overall inventory costs, particularly for consumers or businesses with diverse needs. This multi-purpose functionality contributes to its economic appeal.
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Comparison to Alternatives
The cost-effectiveness of “36 bank line home depot” is best understood in comparison to alternative cordage options. While high-performance ropes made from materials like Dyneema offer superior strength and durability, their price point is significantly higher. For applications where the extreme strength is not required, “36 bank line home depot” presents a cost-effective alternative. Its lower price allows consumers to perform tasks adequately without incurring the expense of premium materials. This price differential makes it an attractive option for budget-conscious consumers.
In conclusion, the cost-effectiveness of “36 bank line home depot” stems from a combination of inexpensive materials, versatile applications, and a lower initial purchase price compared to high-performance alternatives. While its lifespan may be shorter in demanding conditions, its affordability and adaptability make it a practical choice for numerous light-duty tasks. Careful consideration of the intended use case and environmental factors is necessary to determine its true long-term economic value.
9. Typical Applications
The utility of “36 bank line home depot” is inextricably linked to its typical applications, which dictate its design, material composition, and ultimate suitability. Its relatively low tensile strength of 36 pounds necessitates its use in tasks that do not demand high load-bearing capacity. Common applications, therefore, include securing lightweight tarpaulins, creating temporary tie-downs for non-critical items, supporting plant growth in gardens, and crafting projects where strength is not a primary concern. The causal relationship is evident: the low tensile strength inherently limits the potential applications. The “Typical Applications” component becomes crucial for understanding the safe and effective use of “36 bank line home depot,” preventing misuse in situations that could lead to failure and potential harm. For instance, using this cordage to suspend heavy objects would be a misapplication with potentially dangerous consequences.
Considering real-life examples further clarifies this relationship. A homeowner might employ “36 bank line home depot” to secure a lightweight patio umbrella or bundle firewood for storage. A gardener might utilize it to train climbing plants or create a makeshift trellis. In crafting, it could serve as a binding material for decorative projects. These scenarios all align with the cordage’s inherent limitations, emphasizing its appropriateness for light-duty tasks. Conversely, its inadequacy for securing heavy construction materials, towing vehicles, or rappelling should be readily apparent due to its limited tensile strength. These limitations necessitate a clear understanding of the intended application before deployment to ensure safety and prevent material failure.
In summary, the practical significance of understanding the connection between “typical applications” and “36 bank line home depot” lies in promoting safe and effective usage. Misapplication, stemming from a lack of awareness of the cordage’s limitations, poses significant risks. By recognizing its suitability for light-duty tasks and avoiding its use in demanding scenarios, users can maximize its utility while mitigating potential hazards. The challenge lies in consistently educating consumers about these limitations, ensuring informed decision-making in home improvement and other related applications. This understanding reinforces the broader theme of responsible material selection and usage based on specific performance characteristics.
Frequently Asked Questions
This section addresses common inquiries regarding this specific type of cordage, clarifying its properties, applications, and limitations for informed decision-making.
Question 1: What constitutes the tensile strength indicated by “36” in the product name?
The number “36” typically represents the minimum tensile strength in pounds that the cordage can withstand before breaking under a static load. This value is a crucial parameter for determining its suitability for various applications, but users must account for factors such as knot strength and environmental degradation, which can reduce the effective working load.
Question 2: What materials are typically used in the construction of this type of cordage?
This cordage is most often manufactured from synthetic materials like nylon or polypropylene. Nylon offers superior strength and abrasion resistance, while polypropylene provides better water resistance and buoyancy. The specific material composition directly impacts the cordage’s performance and should be considered based on the intended application.
Question 3: How does UV exposure affect the lifespan and performance of this product?
Prolonged exposure to ultraviolet (UV) radiation from sunlight can degrade the synthetic materials, leading to a reduction in tensile strength, increased brittleness, and discoloration. Using the cordage outdoors necessitates considering its UV resistance and potentially applying protective measures or periodically replacing it to maintain safety.
Question 4: Are there specific knots that are more suitable for use with this cordage to maximize knot strength?
Certain knots, such as the bowline or figure-eight loop, generally exhibit higher knot strength compared to others like the square knot or overhand knot. Knot strength is the percentage of the original tensile strength retained after tying a knot. Selection of an appropriate knot, combined with proper tying technique, is critical for maintaining the cordage’s load-bearing capacity.
Question 5: What are some inappropriate applications for cordage with a 36-pound tensile strength?
This cordage is unsuitable for any application requiring a high load-bearing capacity or where failure could result in injury or property damage. Examples of inappropriate uses include lifting heavy objects, securing large or heavy loads, towing vehicles, or rappelling. Its low tensile strength necessitates adherence to its limitations.
Question 6: What maintenance practices can extend the lifespan of this cordage?
Proper storage, cleaning, and protection from UV exposure can prolong the cordage’s lifespan. Storing it in a cool, dry place away from direct sunlight prevents premature degradation. Regular cleaning removes dirt and debris that can contribute to abrasion. Periodic inspection for signs of wear or damage is essential for identifying potential safety hazards.
Understanding these frequently asked questions allows for a more informed assessment of the product’s utility and limitations. Proper application and maintenance practices are crucial for ensuring safety and maximizing the lifespan of this cordage.
The following section will delve into safety guidelines and best practices for the proper use of this type of cordage.
Safety and Best Practices
Effective and safe utilization of this cordage mandates strict adherence to established guidelines. The following recommendations minimize risks and maximize product lifespan. These are essential for avoiding misuse and preventing potential hazards.
Tip 1: Understand Load Limits: Never exceed the stated 36-pound tensile strength. Account for knot strength reduction and environmental factors when estimating safe working loads. Overloading poses a significant risk of cordage failure.
Tip 2: Inspect Before Each Use: Thoroughly examine the cordage for signs of wear, abrasion, or UV damage prior to each application. Discard immediately if any damage is detected. Compromised cordage presents an unacceptable safety hazard.
Tip 3: Choose Appropriate Knots: Utilize knots known for their high knot strength and stability. Secure knots prevent slippage and maintain the cordage’s load-bearing capacity. Incorrect knot selection compromises safety.
Tip 4: Protect from UV Exposure: Minimize prolonged exposure to direct sunlight. Store the cordage in a shaded or covered location when not in use to mitigate UV degradation. UV degradation reduces lifespan and tensile strength.
Tip 5: Avoid Abrasive Surfaces: Prevent repeated dragging or rubbing against abrasive surfaces to minimize wear and tear. Abrasion weakens the cordage and increases the risk of failure. Protect from sharp edges or rough materials.
Tip 6: Clean Regularly: Remove dirt, debris, and contaminants that can accelerate abrasion and degradation. Gentle cleaning with mild soap and water prolongs the cordage’s lifespan. Proper cleaning maintains integrity.
Tip 7: Replace Periodically: Even with proper care, synthetic cordage degrades over time. Establish a replacement schedule based on usage frequency and environmental conditions. Regular replacement prevents unexpected failure.
Adherence to these guidelines significantly enhances the safety and longevity of “36 bank line home depot,” ensuring reliable performance within its intended applications. Neglecting these precautions increases the risk of accidents and diminishes the product’s overall value.
The succeeding discourse summarizes the key takeaways and considerations discussed throughout this article.
36 Bank Line Home Depot
This analysis has explored the properties, applications, and limitations associated with cordage marketed as “36 bank line home depot.” It underscores the critical importance of understanding tensile strength, material composition, knot strength, UV resistance, abrasion resistance, water resistance, cost-effectiveness, and appropriate applications when utilizing this product. The 36-pound tensile strength necessitates restricting its use to light-duty tasks, while proper knot selection, maintenance, and storage are essential for maximizing its lifespan and ensuring safe operation. Adherence to these principles prevents misuse and mitigates potential hazards.
The responsible selection and application of any cordage demands a comprehensive understanding of its capabilities and restrictions. This information serves as a foundation for informed decision-making, promoting safety and preventing potential harm. Continued vigilance and adherence to established safety guidelines are paramount for both professional and personal applications, ensuring that materials are used appropriately within their defined performance parameters. The onus remains on the user to exercise caution and prudence when employing any load-bearing material.
