Ferritic coils: the cost pass-through of input prices - PricePedia
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Ferritic coils: the cost pass-through of input prices - PricePedia

Apr 09, 2025

Published by Luca Sazzini. July 4, 2025 .

In last week’s article Cost pass-through of hot-rolled austenitic coil prices, an analysis was carried out on the cost pass-through of austenitic coil prices to verify whether the transfer of prices from production inputs to the final price was consistent with their actual impact on costs. The analysis showed that the long-term elasticity between the prices of austenitic coils and the cost of the AISI 304 alloy is twice as high as that related to the steel charge, a result that appears lower than their incidence in production costs. On average, in fact, the cost of alloys in an austenitic coil accounts for more than half of total production costs.

This article analyzes the cost pass-through of hot-rolled ferritic stainless steel coil prices, following a similar approach to the one used for austenitic coils. Unlike the latter, which are characterized by a high nickel content that can exceed 20%, ferritic coils have an extra-alloy component made almost exclusively of chromium, with a nickel content of zero or less than 1%. This difference in chemical composition is also reflected in the price dynamics and levels of the two specific types of stainless steel coils. The chart below shows a comparison between the price dynamics of ferritic and austenitic coils, both with a thickness between 3 and 4.75 mm.

Ferritic coil prices tend to be about half those of austenitic coils and follow different price dynamics, characterized by lower volatility and greater stickiness, especially during downward price phases. This aspect is particularly evident in the analysis of the most recent price cycle. Austenitic coils, after increasing by 46% in 2022, compared to 35% for ferritic coils, experienced a price reduction of -20%, five times greater than that recorded for ferritic coils (-4%).

For the cost pass-through analysis of ferritic coils, we will apply the same methodology already used for austenitic coils, using the statistical regression method to estimate the impact of various production input prices on the final price of ferritic coils.

The dependent variable of the regression model used for this analysis is the Principal Component (PCA) of ferritic coil prices of different thicknesses. This variable makes it possible to capture the common price levels and dynamics across the various types of ferritic coils in a single dependent variable. The explanatory variables chosen as regressors are:

To account for the time-lagged effect of changes in ferritic coil prices, lags were added to the explanatory variables of PUN and stainless steel scrap prices (with nickel content below 8%), since these impacts generally manifest only after a certain time interval. In addition, to interpret the estimation results in terms of elasticity, the logarithmic transformation was applied to all variables.

The following table shows the long-run estimation results of ferritic coil prices, calculated using the dynamic specification model by Engle and Granger.[1]

The long-run estimation results of the model’s explanatory variables show parameters consistent with economic theory and statistically significant. The estimated coefficient of the steel charge, which is the sum of the coefficients for steel scrap and electricity, is 0.26, higher than that of the extra-alloy component at 0.20. Overall, the cost pass-through of the commodities used as production inputs is estimated at 0.46, which implies that, ceteris paribus, a 10% increase (or decrease) in raw material prices leads, on average, to a 4.6% increase (decrease) in hot-rolled ferritic coil prices. The highest elasticity coefficient is that related to labor and service costs, with a value of 0.45, more than twice that between coil prices and the industrial cycle index, which is 0.21.The estimated adjusted R2 is 0.95, out of a maximum of 1, indicating an excellent ability of the model to capture the long-run dynamics of hot-rolled ferritic coil prices.

The following table reports the short-run estimation results of the Error Correction Model (ECM), which estimates the adjustment processes of the variables toward the “theoretical” long-term values.

The value of the initial shock is estimated at 0.62, which indicates that 62% of the variations in the price determinants are transmitted instantaneously to the price of ferritic coils. In subsequent periods, the correction of deviations from the long-term equilibrium values occurs with a relatively high adjustment speed, equal to 53% of the deviation from the previous period.

The estimates of the long-term coefficients for hot-rolled ferritic coils were consistent with economic theory and statistically significant. The cost pass-through of the steel charge to the prices of ferritic coils is estimated at 0.26, slightly higher than the extralegal component, which is 0.20. These parameters differ significantly from the cost pass-through estimates for austenitic coils, where the elasticity with respect to the extralegal component is 0.48, almost double that of the steel charge, which is 0.25.

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