No matter where you live, work, or play, there are hinges around. Cabinets, fridges, grills, cars, and airplanes all have hinges that we interact with on the day-to-day.
Boats in particular offer an interesting opportunity for implementing kinematic motion control, mechanical spring counterbalance, and spring assist technologies. Marine hinge design takes into account factors ordinary hinge design might not, including weather condition, humidity, and corrosion.
Heavy-duty stainless steel hinges are common for marine applications. They make it easier to lift heavy hatches or secure windows, and can withstand the harsh elements that boats are exposed to.
And while there are many different types of marine hinges on the market today, heavy-duty stainless steel models offer many unique advantages. Whether you're looking for maximum strength or flexibility, it's important to choose the right hinge type for your marine application.
Let’s dive into the details.
Anyone that works with boats or submarines knows how important good hinges are. They have to perform well under a lot of stress and often hold the doors, hatches, and other parts in place that must be completely secure.
Some applications where heavy-duty stainless steel marine hinges are a must include:
Sturdy marine deck hinges make life onboard safe and secure for everyone from the weekend sailor to the high-seas fisherman. Regular hardware store hinges simply won’t cut it when it comes to the harsh humidity and salt.
Every industry has its unique hinge design guidelines. For example, grill or appliance hinges must be heat resistant, while outdoor hinges require special coatings to protect from the elements.
Marine hinges, however, are a bit of a special case. Not only do they need to be functional for their specific purpose, but they must also be able to withstand corrosion from exposure to salt and weather conditions.
When it comes to heavy-duty stainless steel marine hinges, here are some key design considerations:
Heavy-duty hinges can greatly improve the load-bearing capabilities for a variety of marine applications. Design considerations include:
Although there are many benefits to lightweight aluminum hinges, marine applications usually rely on the benefits of strong and rust-resistant stainless steel.
Common marine hinge steels are DH36, AH.36, and EH36. With their exceptional durability, endurance, and tensile strength, they are particularly weldable and can be shaped to fit multiple marine hinge applications.
In certain cases, brass marine hinges or bronze marine hinges may also have a certain aesthetic appeal. However, these materials are not typically as strong or durable as stainless steel, and can require more maintenance.
Beyond meeting stringent EPA requirements, the location of where the hinge is used (above or below the water line), will determine the coating required.
Anodizing can produce a protective oxide layer but, if the hinge will be immersed, treatment beyond a rust-corrosion coating may be necessary.
Galvanizing is another common coating method that involves applying a thin zinc coating to the object. This zinc layer reacts with the environment to create a protective barrier that prevents rust and is corrosion-resistant.
Powder coating is another option that is becoming increasingly popular for marine applications. This process coats the object in question with a dry powder that is then heated and melted onto the surface. The resulting finish is tough, durable, and resistant to both rust and corrosion.
Another consideration is how long the hinges will have to last. Hinges can be designed to last longer (or shorter) depending on the application and the project budget. For example, many refrigerator hinges are built to last 100,000 cycles or more.
Depending on the use, your hinge might not need to be built to last nearly as long. If you have a counterbalance hinge on the engine box, think about how many times you’ll open it. Chances are not as many times as you’ll open your refrigerator door.
As you can imagine, some marine hatches are quite heavy. Submarines, for instance, might have extremely heavy hatches, but because the entire mechanism is underwater, providing a counterbalance solution is difficult.
But, for hatches that won’t be underwater or are on the interior, different hinges may be required for varying weights. Spring-assist hinges might be useful for interior cabinet doors, while heavy-duty counterbalances would work better for engine compartment lids or hatches.
Marine hinge materials must be able to withstand the constant pressure of salt water and strong winds. This can mean a considerable amount of stress on the components, so they should be made from high-quality materials and designed to last.
Every hinge application is different, so working with a custom motion control hinge designer will go a long way to making sure your project gets the hinge it needs.
To learn more about the capabilities of motion control and counterbalance technology, check out our free guide!