Steel Coil Weight Calculator

by
Steel Coil Weight Calculator – Calculate Coil Mass Accurately :root { –primary-color: #004a99; –success-color: #28a745; –background-color: #f8f9fa; –text-color: #333; –border-color: #ccc; –card-bg: #fff; –shadow: 0 2px 5px rgba(0,0,0,0.1); } body { font-family: 'Segoe UI', Tahoma, Geneva, Verdana, sans-serif; background-color: var(–background-color); color: var(–text-color); line-height: 1.6; margin: 0; padding: 0; display: flex; flex-direction: column; align-items: center; } .container { width: 100%; max-width: 1000px; margin: 20px auto; padding: 20px; background-color: var(–card-bg); border-radius: 8px; box-shadow: var(–shadow); } h1, h2, h3 { color: var(–primary-color); text-align: center; } h1 { font-size: 2.5em; margin-bottom: 10px; } h2 { font-size: 1.8em; margin-top: 30px; margin-bottom: 20px; border-bottom: 2px solid var(–primary-color); padding-bottom: 5px; } h3 { font-size: 1.3em; margin-top: 20px; margin-bottom: 15px; } .calc-header { background-color: var(–primary-color); color: white; padding: 20px; border-radius: 8px 8px 0 0; margin: -20px -20px 20px -20px; text-align: center; } .calc-header h1 { margin: 0; font-size: 2em; } .calc-header p { font-size: 1.1em; margin-top: 5px; } .loan-calc-container { background-color: var(–card-bg); padding: 30px; border-radius: 8px; box-shadow: var(–shadow); margin-bottom: 30px; } .input-group { margin-bottom: 20px; text-align: left; } .input-group label { display: block; margin-bottom: 8px; font-weight: bold; color: var(–primary-color); } .input-group input[type="number"], .input-group select { width: calc(100% – 22px); padding: 12px; border: 1px solid var(–border-color); border-radius: 4px; font-size: 1em; box-sizing: border-box; } .input-group input[type="number"]:focus, .input-group select:focus { outline: none; border-color: var(–primary-color); box-shadow: 0 0 0 3px rgba(0, 74, 153, 0.2); } .input-group small { display: block; margin-top: 8px; color: #666; font-size: 0.9em; } .error-message { color: red; font-size: 0.85em; margin-top: 5px; display: none; /* Hidden by default */ } .button-group { display: flex; justify-content: space-between; margin-top: 30px; gap: 15px; } button { padding: 12px 25px; border: none; border-radius: 5px; cursor: pointer; font-size: 1em; font-weight: bold; transition: background-color 0.3s ease; text-transform: uppercase; } .btn-calculate { background-color: var(–primary-color); color: white; flex-grow: 1; } .btn-calculate:hover { background-color: #003366; } .btn-reset { background-color: #ffc107; color: #212529; } .btn-reset:hover { background-color: #e0a800; } .btn-copy { background-color: var(–success-color); color: white; flex-grow: 1; } .btn-copy:hover { background-color: #218838; } #results-container { margin-top: 30px; padding: 25px; border: 1px dashed var(–primary-color); border-radius: 8px; background-color: rgba(0, 74, 153, 0.05); } #results-container h3 { margin-top: 0; color: var(–primary-color); text-align: left; } #primary-result { font-size: 2.2em; font-weight: bold; color: var(–primary-color); text-align: center; padding: 15px; background-color: var(–success-color); color: white; border-radius: 5px; margin-bottom: 20px; } .intermediate-results div { margin-bottom: 10px; font-size: 1.1em; } .intermediate-results strong { color: var(–primary-color); display: inline-block; min-width: 200px; } .formula-explanation { margin-top: 15px; font-size: 0.95em; color: #555; border-top: 1px solid #eee; padding-top: 10px; } #chart-container { margin-top: 40px; padding: 20px; background-color: var(–card-bg); border-radius: 8px; box-shadow: var(–shadow); } #chart-container h3 { margin-top: 0; color: var(–primary-color); } #weightChart { max-width: 100%; height: 300px; display: block; margin: 0 auto; } .chart-caption { text-align: center; font-style: italic; color: #777; margin-top: 10px; font-size: 0.9em; } table { width: 100%; border-collapse: collapse; margin-top: 20px; box-shadow: var(–shadow); } th, td { padding: 12px 15px; text-align: left; border: 1px solid #ddd; } thead { background-color: var(–primary-color); color: white; } tbody tr:nth-child(even) { background-color: #f2f2f2; } .table-caption { text-align: center; font-style: italic; color: #777; margin-bottom: 15px; font-size: 0.9em; } .article-section { margin-top: 40px; padding: 30px; background-color: var(–card-bg); border-radius: 8px; box-shadow: var(–shadow); } .article-section h2 { text-align: left; border-bottom: 2px solid var(–primary-color); padding-bottom: 5px; } .article-section h3 { text-align: left; margin-top: 25px; margin-bottom: 15px; color: #003366; } .article-section p, .article-section ul, .article-section ol { margin-bottom: 15px; font-size: 1.05em; } .article-section ul { list-style-type: disc; padding-left: 30px; } .article-section li { margin-bottom: 10px; } .article-section strong { color: var(–primary-color); } .faq-list dt { font-weight: bold; color: var(–primary-color); margin-top: 15px; margin-bottom: 5px; } .faq-list dd { margin-left: 20px; margin-bottom: 15px; } .internal-links { list-style: none; padding: 0; } .internal-links li { margin-bottom: 15px; } .internal-links a { color: var(–primary-color); text-decoration: none; font-weight: bold; } .internal-links a:hover { text-decoration: underline; } .internal-links span { display: block; font-size: 0.9em; color: #555; margin-top: 3px; } .result-copied-message { display: none; background-color: var(–success-color); color: white; padding: 10px; border-radius: 5px; margin-top: 15px; text-align: center; font-weight: bold; }

Steel Coil Weight Calculator

Accurately determine the mass of your steel coils.

Steel Coil Weight Calculation

Enter the width of the steel coil in millimeters (mm).
Enter the thickness of the steel coil in millimeters (mm).
Enter the total length (circumference) of the steel within the coil in millimeters (mm).
Mild Steel (Standard – 7850 kg/m³) Stainless Steel (Approx. – 7800 kg/m³) Aluminum (for reference – 7750 kg/m³) High-Carbon Steel (Approx. – 8000 kg/m³) Custom Density Select the type of steel or enter a custom density. Default is Mild Steel (7850 kg/m³).

Calculation Results

Weight: 0.00 kg
Volume (m³): 0.00
Steel Density (kg/m³): 7850.00
Material Used (m³): 0.00

The weight of a steel coil is calculated by first determining its volume and then multiplying that by the density of the steel. Volume = (Coil Width * Coil Length * Coil Thickness) / 1,000,000,000 (to convert mm³ to m³). Weight = Volume * Steel Density.

Results copied to clipboard!

Weight vs. Coil Length

Estimated coil weight based on varying coil lengths.
Steel Coil Properties Summary
Property Value Unit
Coil Width mm
Coil Thickness mm
Coil Length (Circumference) mm
Steel Density kg/m³
Calculated Volume
Calculated Weight kg

What is Steel Coil Weight Calculation?

The steel coil weight calculator is a specialized tool designed to estimate the mass of a steel coil based on its physical dimensions and the density of the steel alloy. Steel coils are fundamental in numerous manufacturing processes, from automotive parts and construction materials to home appliances and industrial machinery. Precisely knowing the weight of a steel coil is crucial for inventory management, shipping logistics, material costing, production planning, and ensuring material specifications are met. This steel coil weight calculator simplifies a potentially complex calculation, making it accessible to engineers, procurement specialists, fabricators, and anyone involved in handling or purchasing steel coils.

Who should use it: This tool is invaluable for metal fabricators, steel service centers, purchasing managers, logistics coordinators, project managers in construction, and engineers who need to quickly estimate the weight of steel coils for quoting, planning, or verification purposes. Anyone working with bulk steel materials can benefit from the accuracy and speed of a reliable steel coil weight calculator.

Common misconceptions: A common misconception is that all steel has the same density. In reality, different steel alloys have slightly varying densities, which can impact the final weight calculation. Another misconception is that a simple length measurement is sufficient; the width and thickness of the coil's material are equally critical dimensions that must be factored into any accurate steel coil weight calculator. The "length" also refers to the total length of the flat steel strip wound into the coil, often calculated from its outer diameter, inner diameter, and thickness, or directly measured for flat sheets. For this calculator, we use the term "Coil Length" to represent the total length of the steel strip that, when unrolled, forms the coil's material.

Steel Coil Weight Formula and Mathematical Explanation

The core principle behind calculating the weight of a steel coil is the fundamental physics equation: Weight = Volume × Density. However, to apply this, we first need to determine the volume of the steel within the coil.

Step-by-Step Derivation:

  1. Calculate the Volume of the Steel: A steel coil is essentially a very long, rectangular prism of steel wound into a cylinder. The volume of this material can be approximated by multiplying its width, thickness, and total length.

    Volume (in mm³) = Coil Width × Coil Length × Coil Thickness

    Since density is typically given in kilograms per cubic meter (kg/m³), we need to convert our volume from cubic millimeters (mm³) to cubic meters (m³). There are 1,000,000,000 mm³ in 1 m³ (1000 mm/m × 1000 mm/m × 1000 mm/m).

    Volume (in m³) = (Coil Width × Coil Length × Coil Thickness) / 1,000,000,000
  2. Determine the Steel Density: The density of steel varies slightly depending on its alloy composition. For common mild steel, a widely accepted value is 7850 kg/m³. Other types, like stainless steel, might have slightly different densities. The calculator provides options for common types or allows for custom input.
  3. Calculate the Weight: Once we have the volume in cubic meters and the density in kilograms per cubic meter, we can find the weight.

    Weight (in kg) = Volume (in m³) × Steel Density (in kg/m³)

Variable Explanations:

  • Coil Width: The dimension across the flat strip of steel.
  • Coil Length: The total length of the steel strip wound into the coil. This is a critical input and often requires calculation itself based on coil diameters if not directly known.
  • Coil Thickness: The depth of the flat steel strip.
  • Steel Density: The mass per unit volume of the specific steel alloy.

Variables Table:

Variable Meaning Unit Typical Range / Notes
Coil Width Width of the steel strip mm 10 – 2000+
Coil Length Total length of the steel strip wound into the coil mm 100 – 10,000+ (highly variable)
Coil Thickness Thickness (gauge) of the steel strip mm 0.5 – 25+
Steel Density Mass per unit volume of the steel alloy kg/m³ Approx. 7750 – 8100 (Mild Steel: ~7850)
Volume The space occupied by the steel material Calculated value
Weight The total mass of the steel coil kg Calculated value

Practical Examples (Real-World Use Cases)

Understanding the practical application of the steel coil weight calculator is key. Here are a couple of scenarios:

Example 1: Calculating Weight for a Construction Project

A construction company is sourcing steel beams. They need to know the weight of a specific steel coil that will be used to produce these beams.

  • Coil Width: 1500 mm
  • Coil Thickness: 8 mm
  • Coil Length (Circumference): 5000 mm
  • Steel Density: 7850 kg/m³ (Standard Mild Steel)

Using the calculator:

  • Volume = (1500 mm × 5000 mm × 8 mm) / 1,000,000,000 = 0.06 m³
  • Weight = 0.06 m³ × 7850 kg/m³ = 471 kg

Interpretation: This specific coil section weighs approximately 471 kg. This information is vital for calculating the total material required for the beams, estimating shipping costs, and planning crane loads on-site. This demonstrates the immediate utility of the steel coil weight calculator in logistical planning.

Example 2: Quoting for Automotive Parts Manufacturing

A metal fabrication shop receives a request to quote for manufacturing custom automotive panels. They need to estimate the material cost, which depends on the weight of the steel coil they will use.

  • Coil Width: 1250 mm
  • Coil Thickness: 1.5 mm
  • Coil Length (Circumference): 12000 mm
  • Steel Density: 7850 kg/m³ (High-Strength Low-Alloy Steel, density is similar to mild steel)

Using the calculator:

  • Volume = (1250 mm × 12000 mm × 1.5 mm) / 1,000,000,000 = 0.0225 m³
  • Weight = 0.0225 m³ × 7850 kg/m³ = 176.63 kg

Interpretation: The section of steel coil required for this batch of parts weighs approximately 176.63 kg. This weight allows the fabricator to accurately price the raw material cost for their quote, ensuring profitability and competitiveness. This showcases how the steel coil weight calculator aids in precise financial quoting.

How to Use This Steel Coil Weight Calculator

Our steel coil weight calculator is designed for simplicity and accuracy. Follow these steps to get your weight calculation:

  1. Enter Coil Dimensions:
    • Coil Width (mm): Input the width of the steel strip.
    • Coil Thickness (mm): Input the thickness of the steel strip.
    • Coil Length (Circumference) (mm): This is the total length of the steel strip wound into the coil. Ensure this value is accurate, as it significantly impacts the total weight.
  2. Select Steel Density: Choose the appropriate steel type from the dropdown menu (Mild Steel, Stainless Steel, etc.) or select 'Custom Density' and enter the specific value in kg/m³ if known. The default is standard mild steel (7850 kg/m³).
  3. Calculate: Click the "Calculate Weight" button.
  4. View Results: The calculator will instantly display:
    • The primary result: Total Coil Weight (kg).
    • Intermediate values: Calculated Volume (m³), the Steel Density (kg/m³) used, and the total Material Used (m³) (which is the volume).
    • A brief explanation of the formula used.
  5. Analyze the Chart and Table: Observe the chart showing how weight changes with coil length and review the summary table for a clear overview of all input and output values.
  6. Copy Results: If you need to save or share the results, click "Copy Results". This will copy the main weight, intermediate values, and key assumptions to your clipboard.
  7. Reset: To start over with fresh inputs, click the "Reset" button. It will restore default sensible values.

Decision-making guidance: Use the calculated weight to compare against supplier specifications, verify incoming material, determine shipping capacity, and accurately cost your projects. For instance, if the calculated weight exceeds your equipment's lifting capacity, you'll know to split the coil or use a different handling method.

Key Factors That Affect Steel Coil Weight Results

While the core formula is straightforward, several factors can influence the accuracy and interpretation of your steel coil weight calculator results:

  • Accuracy of Input Dimensions: This is paramount. Any error in measuring the coil's width, thickness, or especially its total length will directly lead to an inaccurate weight calculation. Ensure precise measurements are taken.
  • Steel Alloy Composition (Density): As mentioned, different steel alloys have slightly different densities. Using a generic density for a specific alloy (e.g., using mild steel density for a high-alloy stainless steel) will introduce a calculation error. Always use the correct density for the specific material grade.
  • Coil Quality and Uniformity: Real-world steel coils might have minor variations in thickness or width across their surface due to manufacturing tolerances. While our calculator assumes uniformity, these slight deviations can lead to minor weight discrepancies in practice.
  • Internal vs. External Diameter: For coils where the total length isn't directly measured, it's often calculated from the inner and outer diameters. The formula for this can be complex due to the spiral nature and requires accurate measurements of both diameters and the material thickness. Inaccuracies here cascade into the coil length and thus the final weight.
  • Surface Coatings and Treatments: Some steel coils have coatings (like galvanization or paint). While typically thin, these add a small amount of weight. For highly precise calculations where these coatings are substantial, their specific density would ideally be factored in, though most standard steel coil weight calculator tools do not include this complexity.
  • Units of Measurement: A frequent source of error is inconsistent use of units. The calculator is designed for millimeters (mm) for dimensions and kilograms per cubic meter (kg/m³) for density. Mixing units (e.g., entering inches or feet) without proper conversion will yield drastically incorrect results.
  • Temperature Effects: While generally negligible for typical industrial applications and calculations, extreme temperature fluctuations can cause minor expansion or contraction of the steel, leading to minuscule changes in volume and density. This is usually an edge case ignored by most practical calculators.

Frequently Asked Questions (FAQ)

What is the standard density of steel used in calculations?
The most commonly used density for standard mild steel is 7850 kg/m³. However, densities can range slightly for different alloys, typically between 7750 kg/m³ and 8100 kg/m³.
How do I find the "Coil Length" if it's not directly measured?
The coil length can be estimated using the coil's inner diameter (ID), outer diameter (OD), and thickness (t). A common approximation is: Length = (π/4) * (OD² – ID²) / t. Ensure all measurements are in the same units (e.g., mm).
Can this calculator handle different units like inches or feet?
This specific steel coil weight calculator is designed for millimeters (mm) for dimensions and kilograms per cubic meter (kg/m³) for density. You must convert any measurements in inches or feet to millimeters before entering them.
What if my steel coil is not perfectly rectangular?
Most steel coils are made from flat-rolled steel, so they are effectively rectangular prisms wound up. If you have an unusually shaped coil, you would need to break it down into simpler geometric shapes or use advanced volume calculation methods.
Does the calculator account for the hollow core of the coil?
No, this calculator assumes the "Coil Length" represents the total length of the steel material itself. It does not subtract the volume of the hollow core unless the provided "Coil Length" is adjusted accordingly by the user.
How accurate is the steel coil weight calculation?
The accuracy depends directly on the precision of your input measurements (width, thickness, length) and the accuracy of the steel density value you use. Assuming accurate inputs, the calculation itself is mathematically precise.
Why is knowing the exact steel coil weight important?
It's crucial for accurate material costing, managing inventory, verifying shipments against purchase orders, planning transportation logistics (weight limits), and ensuring that the material meets project specifications.
Can I use this calculator for other metal coils like aluminum?
Yes, you can, provided you select the correct density for that metal. For example, aluminum has a density of approximately 2700 kg/m³. You would select 'Custom Density' and input the appropriate value.

Related Tools and Internal Resources

© 2023 Your Company Name. All rights reserved.

var chartInstance = null; // Keep track of the chart instance function validateInput(value, id, errorId, min, max) { var errorElement = document.getElementById(errorId); errorElement.style.display = 'none'; var inputElement = document.getElementById(id); if (value === "") { errorElement.textContent = "This field cannot be empty."; errorElement.style.display = 'block'; return false; } var numberValue = parseFloat(value); if (isNaN(numberValue)) { errorElement.textContent = "Please enter a valid number."; errorElement.style.display = 'block'; return false; } if (numberValue < 0) { errorElement.textContent = "Value cannot be negative."; errorElement.style.display = 'block'; return false; } if (min !== undefined && numberValue max) { errorElement.textContent = "Value cannot exceed " + max + "."; errorElement.style.display = 'block'; return false; } return true; } function calculateWeight() { var coilWidthInput = document.getElementById('coilWidth'); var coilThicknessInput = document.getElementById('coilThickness'); var coilLengthInput = document.getElementById('coilLength'); var steelDensitySelect = document.getElementById('steelDensity'); var customDensityInput = document.getElementById('customDensity'); var width = coilWidthInput.value; var thickness = coilThicknessInput.value; var length = coilLengthInput.value; var densityValue = steelDensitySelect.value; var isValid = true; isValid = validateInput(width, 'coilWidth', 'coilWidthError', 0.1) && isValid; // Min width of 0.1mm isValid = validateInput(thickness, 'coilThickness', 'coilThicknessError', 0.01) && isValid; // Min thickness of 0.01mm isValid = validateInput(length, 'coilLength', 'coilLengthError', 1) && isValid; // Min length of 1mm var selectedDensity = 7850; // Default to mild steel if (densityValue === "custom") { var customDensity = customDensityInput.value; isValid = validateInput(customDensity, 'customDensity', 'steelDensityError', 1000) && isValid; // Min density 1000 kg/m³ if (isValid) { selectedDensity = parseFloat(customDensity); } } else { selectedDensity = parseFloat(densityValue); } if (!isValid) { return; } var widthMm = parseFloat(width); var thicknessMm = parseFloat(thickness); var lengthMm = parseFloat(length); // Convert dimensions from mm to meters for volume calculation var widthM = widthMm / 1000; var thicknessM = thicknessMm / 1000; var lengthM = lengthMm / 1000; // Calculate Volume in cubic meters (m³) // Note: For a coil, the volume is width * thickness * length_of_strip. // The calculator uses width, thickness, and "length" (representing the length of the strip). var volumeM3 = widthM * thicknessM * lengthM; // Calculate Weight var weightKg = volumeM3 * selectedDensity; // Display Results document.getElementById('primary-result').textContent = 'Weight: ' + weightKg.toFixed(2) + ' kg'; document.getElementById('volumeResult').textContent = volumeM3.toFixed(4); document.getElementById('densityResult').textContent = selectedDensity.toFixed(2); document.getElementById('materialUsedResult').textContent = volumeM3.toFixed(4); // Material used is the volume // Update table document.getElementById('tableWidth').textContent = widthMm.toFixed(2); document.getElementById('tableThickness').textContent = thicknessMm.toFixed(2); document.getElementById('tableLength').textContent = lengthMm.toFixed(0); document.getElementById('tableDensity').textContent = selectedDensity.toFixed(2); document.getElementById('tableVolume').textContent = volumeM3.toFixed(4); document.getElementById('tableWeight').textContent = weightKg.toFixed(2); updateChart(lengthMm, weightKg); } function resetCalculator() { document.getElementById('coilWidth').value = 1200; document.getElementById('coilThickness').value = 5; document.getElementById('coilLength').value = 1570; document.getElementById('steelDensity').value = '7850'; document.getElementById('customDensity').style.display = 'none'; document.getElementById('customDensity').value = "; // Clear errors document.getElementById('coilWidthError').style.display = 'none'; document.getElementById('coilThicknessError').style.display = 'none'; document.getElementById('coilLengthError').style.display = 'none'; document.getElementById('steelDensityError').style.display = 'none'; calculateWeight(); // Recalculate with default values document.querySelector('.result-copied-message').style.display = 'none'; // Hide copy message } function copyResults() { var primaryResult = document.getElementById('primary-result').textContent; var volume = document.getElementById('volumeResult').textContent; var density = document.getElementById('densityResult').textContent; var materialUsed = document.getElementById('materialUsedResult').textContent; var assumptions = "Key Assumptions:\n"; assumptions += "- Steel Density (kg/m³): " + density + "\n"; assumptions += "- Input Units: mm for dimensions\n"; var textToCopy = primaryResult + "\n\n"; textToCopy += "Intermediate Values:\n"; textToCopy += "- Volume (m³): " + volume + "\n"; textToCopy += "- Material Used (m³): " + materialUsed + "\n"; textToCopy += "\n" + assumptions; var tempTextArea = document.createElement("textarea"); tempTextArea.value = textToCopy; document.body.appendChild(tempTextArea); tempTextArea.select(); document.execCommand("copy"); document.body.removeChild(tempTextArea); var copyMessage = document.querySelector('.result-copied-message'); copyMessage.style.display = 'block'; setTimeout(function() { copyMessage.style.display = 'none'; }, 3000); } function updateChart(currentLength, currentWeight) { var ctx = document.getElementById('weightChart').getContext('2d'); // Data for the chart: varying coil lengths and corresponding weights var baseLength = parseFloat(document.getElementById('coilLength').value) || 1570; var baseWidth = parseFloat(document.getElementById('coilWidth').value) || 1200; var baseThickness = parseFloat(document.getElementById('coilThickness').value) || 5; var baseDensity = parseFloat(document.getElementById('steelDensity').value); if (baseDensitySelect.value === "custom") { baseDensity = parseFloat(document.getElementById('customDensity').value) || 7850; } else { baseDensity = parseFloat(document.getElementById('steelDensity').value); } var lengths = []; var weights = []; var numPoints = 10; // Generate data points around the current length var lengthStep = baseLength / 5; // Adjust step for better visualization for (var i = 0; i < numPoints; i++) { var length = Math.max(1, baseLength – (lengthStep * (numPoints / 2)) + (i * lengthStep)); // Ensure length is at least 1 lengths.push(length); var volume = (baseWidth / 1000) * (baseThickness / 1000) * (length / 1000); var weight = volume * baseDensity; weights.push(weight); } // Sort data by length for a clean line chart var chartData = lengths.map(function(length, i) { return { length: length, weight: weights[i] }; }); chartData.sort(function(a, b) { return a.length – b.length; }); lengths = chartData.map(function(data) { return data.length; }); weights = chartData.map(function(data) { return data.weight; }); // Add the current calculated point if it's not already close to one var currentIndex = lengths.findIndex(function(l) { return Math.abs(l – currentLength) < lengthStep / 2; }); if (currentIndex === -1) { lengths.push(currentLength); weights.push(currentWeight); chartData.push({ length: currentLength, weight: currentWeight }); chartData.sort(function(a, b) { return a.length – b.length; }); lengths = chartData.map(function(data) { return data.length; }); weights = chartData.map(function(data) { return data.weight; }); } else { // Update existing point if it's closer weights[currentIndex] = currentWeight; } if (chartInstance) { chartInstance.destroy(); } chartInstance = new Chart(ctx, { type: 'line', data: { labels: lengths.map(function(l) { return l.toFixed(0); }), // Labels for X-axis (length) datasets: [{ label: 'Coil Weight (kg)', data: weights.map(function(w) { return w.toFixed(2); }), // Data for Y-axis (weight) borderColor: 'var(–primary-color)', backgroundColor: 'rgba(0, 74, 153, 0.2)', fill: true, tension: 0.1 }] }, options: { responsive: true, maintainAspectRatio: false, scales: { x: { title: { display: true, text: 'Coil Length (mm)' } }, y: { title: { display: true, text: 'Weight (kg)' }, beginAtZero: true } }, plugins: { legend: { position: 'top', }, tooltip: { callbacks: { label: function(context) { var label = context.dataset.label || ''; if (label) { label += ': '; } if (context.parsed.y !== null) { label += context.parsed.y.toFixed(2) + ' kg'; } return label; } } } } } }); } // Handle custom density input visibility document.getElementById('steelDensity').addEventListener('change', function() { var customDensityInput = document.getElementById('customDensity'); if (this.value === 'custom') { customDensityInput.style.display = 'block'; // Trigger calculateWeight if custom density was just selected and other fields are filled calculateWeight(); } else { customDensityInput.style.display = 'none'; customDensityInput.value = ''; // Clear custom density value // Trigger calculateWeight if custom density is deselected calculateWeight(); } }); // Initial calculation and chart render on page load document.addEventListener('DOMContentLoaded', function() { resetCalculator(); // Set defaults and perform initial calculation // Initial chart update with default values var initialLength = parseFloat(document.getElementById('coilLength').value); var initialWeight = parseFloat(document.getElementById('primary-result').textContent.replace('Weight: ', '').replace(' kg', '')); updateChart(initialLength, initialWeight); });

Leave a Comment